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CodeBlocksPortable/Borland/BCC55/Include/ntddndis.h

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/*++ BUILD Version: 0001 // Increment this if a change has global effects
Copyright (c) 1990-1999 Microsoft Corporation
Module Name:
ntddndis.h
Abstract:
This is the include file that defines all constants and types for
accessing the Network driver interface device.
Author:
NDIS/ATM Development Team
Revision History:
added the correct values for NDIS 3.0.
added Pnp IoCTLs and structures
added general co ndis oids.
added PnP and PM OIDs.
--*/
#ifndef _NTDDNDIS_
#pragma option push -b -a8 -pc -A- /*P_O_Push*/
#define _NTDDNDIS_
#if _MSC_VER > 1000
#pragma once
#endif
#ifdef __cplusplus
extern "C" {
#endif
//
// Device Name - this string is the name of the device. It is the name
// that should be passed to NtOpenFile when accessing the device.
//
// Note: For devices that support multiple units, it should be suffixed
// with the Ascii representation of the unit number.
//
#define DD_NDIS_DEVICE_NAME "\\Device\\UNKNOWN"
//
// NtDeviceIoControlFile IoControlCode values for this device.
//
// Warning: Remember that the low two bits of the code specify how the
// buffers are passed to the driver!
//
#define _NDIS_CONTROL_CODE(request,method) \
CTL_CODE(FILE_DEVICE_PHYSICAL_NETCARD, request, method, FILE_ANY_ACCESS)
#define IOCTL_NDIS_QUERY_GLOBAL_STATS _NDIS_CONTROL_CODE(0, METHOD_OUT_DIRECT)
#define IOCTL_NDIS_QUERY_ALL_STATS _NDIS_CONTROL_CODE(1, METHOD_OUT_DIRECT)
#define IOCTL_NDIS_DO_PNP_OPERATION _NDIS_CONTROL_CODE(2, METHOD_BUFFERED)
#define IOCTL_NDIS_QUERY_SELECTED_STATS _NDIS_CONTROL_CODE(3, METHOD_OUT_DIRECT)
#define IOCTL_NDIS_ENUMERATE_INTERFACES _NDIS_CONTROL_CODE(4, METHOD_BUFFERED)
#define IOCTL_NDIS_ADD_TDI_DEVICE _NDIS_CONTROL_CODE(5, METHOD_BUFFERED)
#define IOCTL_NDIS_GET_DEVICE_BUNDLE _NDIS_CONTROL_CODE(6, METHOD_OUT_DIRECT)
#define IOCTL_NDIS_GET_LOG_DATA _NDIS_CONTROL_CODE(7, METHOD_OUT_DIRECT)
//
// NtDeviceIoControlFile InputBuffer/OutputBuffer record structures for
// this device.
//
//
// This is the type of an NDIS OID value.
//
typedef ULONG NDIS_OID, *PNDIS_OID;
//
// IOCTL_NDIS_QUERY_ALL_STATS returns a sequence of these, packed
// together. This structure is unaligned because not all statistics
// have a length that is a ULONG multiple.
//
typedef UNALIGNED struct _NDIS_STATISTICS_VALUE
{
NDIS_OID Oid;
ULONG DataLength;
UCHAR Data[1]; // variable length
} NDIS_STATISTICS_VALUE, *PNDIS_STATISTICS_VALUE;
//
// Structure used to define a self-contained variable data structure
//
typedef struct _NDIS_VAR_DATA_DESC
{
USHORT Length; // # of octects of data
USHORT MaximumLength; // # of octects available
ULONG_PTR Offset; // Offset of data relative to the descriptor
} NDIS_VAR_DATA_DESC, *PNDIS_VAR_DATA_DESC;
#ifndef GUID_DEFINED
#include <guiddef.h>
#endif // !GUID_DEFINED
//
// General Objects
//
//
// Required OIDs
//
#define OID_GEN_SUPPORTED_LIST 0x00010101
#define OID_GEN_HARDWARE_STATUS 0x00010102
#define OID_GEN_MEDIA_SUPPORTED 0x00010103
#define OID_GEN_MEDIA_IN_USE 0x00010104
#define OID_GEN_MAXIMUM_LOOKAHEAD 0x00010105
#define OID_GEN_MAXIMUM_FRAME_SIZE 0x00010106
#define OID_GEN_LINK_SPEED 0x00010107
#define OID_GEN_TRANSMIT_BUFFER_SPACE 0x00010108
#define OID_GEN_RECEIVE_BUFFER_SPACE 0x00010109
#define OID_GEN_TRANSMIT_BLOCK_SIZE 0x0001010A
#define OID_GEN_RECEIVE_BLOCK_SIZE 0x0001010B
#define OID_GEN_VENDOR_ID 0x0001010C
#define OID_GEN_VENDOR_DESCRIPTION 0x0001010D
#define OID_GEN_CURRENT_PACKET_FILTER 0x0001010E
#define OID_GEN_CURRENT_LOOKAHEAD 0x0001010F
#define OID_GEN_DRIVER_VERSION 0x00010110
#define OID_GEN_MAXIMUM_TOTAL_SIZE 0x00010111
#define OID_GEN_PROTOCOL_OPTIONS 0x00010112
#define OID_GEN_MAC_OPTIONS 0x00010113
#define OID_GEN_MEDIA_CONNECT_STATUS 0x00010114
#define OID_GEN_MAXIMUM_SEND_PACKETS 0x00010115
#define OID_GEN_VENDOR_DRIVER_VERSION 0x00010116
#define OID_GEN_SUPPORTED_GUIDS 0x00010117
#define OID_GEN_NETWORK_LAYER_ADDRESSES 0x00010118 // Set only
#define OID_GEN_TRANSPORT_HEADER_OFFSET 0x00010119 // Set only
//
// Optional OIDs
//
#define OID_GEN_MEDIA_CAPABILITIES 0x00010201
#define OID_GEN_PHYSICAL_MEDIUM 0x00010202
//
// Required statistics
//
#define OID_GEN_XMIT_OK 0x00020101
#define OID_GEN_RCV_OK 0x00020102
#define OID_GEN_XMIT_ERROR 0x00020103
#define OID_GEN_RCV_ERROR 0x00020104
#define OID_GEN_RCV_NO_BUFFER 0x00020105
//
// Optional statistics
//
#define OID_GEN_DIRECTED_BYTES_XMIT 0x00020201
#define OID_GEN_DIRECTED_FRAMES_XMIT 0x00020202
#define OID_GEN_MULTICAST_BYTES_XMIT 0x00020203
#define OID_GEN_MULTICAST_FRAMES_XMIT 0x00020204
#define OID_GEN_BROADCAST_BYTES_XMIT 0x00020205
#define OID_GEN_BROADCAST_FRAMES_XMIT 0x00020206
#define OID_GEN_DIRECTED_BYTES_RCV 0x00020207
#define OID_GEN_DIRECTED_FRAMES_RCV 0x00020208
#define OID_GEN_MULTICAST_BYTES_RCV 0x00020209
#define OID_GEN_MULTICAST_FRAMES_RCV 0x0002020A
#define OID_GEN_BROADCAST_BYTES_RCV 0x0002020B
#define OID_GEN_BROADCAST_FRAMES_RCV 0x0002020C
#define OID_GEN_RCV_CRC_ERROR 0x0002020D
#define OID_GEN_TRANSMIT_QUEUE_LENGTH 0x0002020E
#define OID_GEN_GET_TIME_CAPS 0x0002020F
#define OID_GEN_GET_NETCARD_TIME 0x00020210
#define OID_GEN_NETCARD_LOAD 0x00020211
#define OID_GEN_DEVICE_PROFILE 0x00020212
//
// The following is exported by NDIS itself and is only queryable. It returns
// the time in milliseconds a driver took to initialize.
//
#define OID_GEN_INIT_TIME_MS 0x00020213
#define OID_GEN_RESET_COUNTS 0x00020214
#define OID_GEN_MEDIA_SENSE_COUNTS 0x00020215
#define OID_GEN_FRIENDLY_NAME 0x00020216
//
// These are connection-oriented general OIDs.
// These replace the above OIDs for connection-oriented media.
//
#define OID_GEN_CO_SUPPORTED_LIST OID_GEN_SUPPORTED_LIST
#define OID_GEN_CO_HARDWARE_STATUS OID_GEN_HARDWARE_STATUS
#define OID_GEN_CO_MEDIA_SUPPORTED OID_GEN_MEDIA_SUPPORTED
#define OID_GEN_CO_MEDIA_IN_USE OID_GEN_MEDIA_IN_USE
#define OID_GEN_CO_LINK_SPEED OID_GEN_LINK_SPEED
#define OID_GEN_CO_VENDOR_ID OID_GEN_VENDOR_ID
#define OID_GEN_CO_VENDOR_DESCRIPTION OID_GEN_VENDOR_DESCRIPTION
#define OID_GEN_CO_DRIVER_VERSION OID_GEN_DRIVER_VERSION
#define OID_GEN_CO_PROTOCOL_OPTIONS OID_GEN_PROTOCOL_OPTIONS
#define OID_GEN_CO_MAC_OPTIONS OID_GEN_MAC_OPTIONS
#define OID_GEN_CO_MEDIA_CONNECT_STATUS OID_GEN_MEDIA_CONNECT_STATUS
#define OID_GEN_CO_VENDOR_DRIVER_VERSION OID_GEN_VENDOR_DRIVER_VERSION
#define OID_GEN_CO_SUPPORTED_GUIDS OID_GEN_SUPPORTED_GUIDS
#define OID_GEN_CO_GET_TIME_CAPS OID_GEN_GET_TIME_CAPS
#define OID_GEN_CO_GET_NETCARD_TIME OID_GEN_GET_NETCARD_TIME
#define OID_GEN_CO_MINIMUM_LINK_SPEED 0x00020120
//
// These are connection-oriented statistics OIDs.
//
#define OID_GEN_CO_XMIT_PDUS_OK OID_GEN_XMIT_OK
#define OID_GEN_CO_RCV_PDUS_OK OID_GEN_RCV_OK
#define OID_GEN_CO_XMIT_PDUS_ERROR OID_GEN_XMIT_ERROR
#define OID_GEN_CO_RCV_PDUS_ERROR OID_GEN_RCV_ERROR
#define OID_GEN_CO_RCV_PDUS_NO_BUFFER OID_GEN_RCV_NO_BUFFER
#define OID_GEN_CO_RCV_CRC_ERROR OID_GEN_RCV_CRC_ERROR
#define OID_GEN_CO_TRANSMIT_QUEUE_LENGTH OID_GEN_TRANSMIT_QUEUE_LENGTH
#define OID_GEN_CO_BYTES_XMIT OID_GEN_DIRECTED_BYTES_XMIT
#define OID_GEN_CO_BYTES_RCV OID_GEN_DIRECTED_BYTES_RCV
#define OID_GEN_CO_NETCARD_LOAD OID_GEN_NETCARD_LOAD
#define OID_GEN_CO_DEVICE_PROFILE OID_GEN_DEVICE_PROFILE
#define OID_GEN_CO_BYTES_XMIT_OUTSTANDING 0x00020221
//
// 802.3 Objects (Ethernet)
//
#define OID_802_3_PERMANENT_ADDRESS 0x01010101
#define OID_802_3_CURRENT_ADDRESS 0x01010102
#define OID_802_3_MULTICAST_LIST 0x01010103
#define OID_802_3_MAXIMUM_LIST_SIZE 0x01010104
#define OID_802_3_MAC_OPTIONS 0x01010105
#define NDIS_802_3_MAC_OPTION_PRIORITY 0x00000001
#define OID_802_3_RCV_ERROR_ALIGNMENT 0x01020101
#define OID_802_3_XMIT_ONE_COLLISION 0x01020102
#define OID_802_3_XMIT_MORE_COLLISIONS 0x01020103
#define OID_802_3_XMIT_DEFERRED 0x01020201
#define OID_802_3_XMIT_MAX_COLLISIONS 0x01020202
#define OID_802_3_RCV_OVERRUN 0x01020203
#define OID_802_3_XMIT_UNDERRUN 0x01020204
#define OID_802_3_XMIT_HEARTBEAT_FAILURE 0x01020205
#define OID_802_3_XMIT_TIMES_CRS_LOST 0x01020206
#define OID_802_3_XMIT_LATE_COLLISIONS 0x01020207
//
// 802.5 Objects (Token-Ring)
//
#define OID_802_5_PERMANENT_ADDRESS 0x02010101
#define OID_802_5_CURRENT_ADDRESS 0x02010102
#define OID_802_5_CURRENT_FUNCTIONAL 0x02010103
#define OID_802_5_CURRENT_GROUP 0x02010104
#define OID_802_5_LAST_OPEN_STATUS 0x02010105
#define OID_802_5_CURRENT_RING_STATUS 0x02010106
#define OID_802_5_CURRENT_RING_STATE 0x02010107
#define OID_802_5_LINE_ERRORS 0x02020101
#define OID_802_5_LOST_FRAMES 0x02020102
#define OID_802_5_BURST_ERRORS 0x02020201
#define OID_802_5_AC_ERRORS 0x02020202
#define OID_802_5_ABORT_DELIMETERS 0x02020203
#define OID_802_5_FRAME_COPIED_ERRORS 0x02020204
#define OID_802_5_FREQUENCY_ERRORS 0x02020205
#define OID_802_5_TOKEN_ERRORS 0x02020206
#define OID_802_5_INTERNAL_ERRORS 0x02020207
//
// FDDI Objects
//
#define OID_FDDI_LONG_PERMANENT_ADDR 0x03010101
#define OID_FDDI_LONG_CURRENT_ADDR 0x03010102
#define OID_FDDI_LONG_MULTICAST_LIST 0x03010103
#define OID_FDDI_LONG_MAX_LIST_SIZE 0x03010104
#define OID_FDDI_SHORT_PERMANENT_ADDR 0x03010105
#define OID_FDDI_SHORT_CURRENT_ADDR 0x03010106
#define OID_FDDI_SHORT_MULTICAST_LIST 0x03010107
#define OID_FDDI_SHORT_MAX_LIST_SIZE 0x03010108
#define OID_FDDI_ATTACHMENT_TYPE 0x03020101
#define OID_FDDI_UPSTREAM_NODE_LONG 0x03020102
#define OID_FDDI_DOWNSTREAM_NODE_LONG 0x03020103
#define OID_FDDI_FRAME_ERRORS 0x03020104
#define OID_FDDI_FRAMES_LOST 0x03020105
#define OID_FDDI_RING_MGT_STATE 0x03020106
#define OID_FDDI_LCT_FAILURES 0x03020107
#define OID_FDDI_LEM_REJECTS 0x03020108
#define OID_FDDI_LCONNECTION_STATE 0x03020109
#define OID_FDDI_SMT_STATION_ID 0x03030201
#define OID_FDDI_SMT_OP_VERSION_ID 0x03030202
#define OID_FDDI_SMT_HI_VERSION_ID 0x03030203
#define OID_FDDI_SMT_LO_VERSION_ID 0x03030204
#define OID_FDDI_SMT_MANUFACTURER_DATA 0x03030205
#define OID_FDDI_SMT_USER_DATA 0x03030206
#define OID_FDDI_SMT_MIB_VERSION_ID 0x03030207
#define OID_FDDI_SMT_MAC_CT 0x03030208
#define OID_FDDI_SMT_NON_MASTER_CT 0x03030209
#define OID_FDDI_SMT_MASTER_CT 0x0303020A
#define OID_FDDI_SMT_AVAILABLE_PATHS 0x0303020B
#define OID_FDDI_SMT_CONFIG_CAPABILITIES 0x0303020C
#define OID_FDDI_SMT_CONFIG_POLICY 0x0303020D
#define OID_FDDI_SMT_CONNECTION_POLICY 0x0303020E
#define OID_FDDI_SMT_T_NOTIFY 0x0303020F
#define OID_FDDI_SMT_STAT_RPT_POLICY 0x03030210
#define OID_FDDI_SMT_TRACE_MAX_EXPIRATION 0x03030211
#define OID_FDDI_SMT_PORT_INDEXES 0x03030212
#define OID_FDDI_SMT_MAC_INDEXES 0x03030213
#define OID_FDDI_SMT_BYPASS_PRESENT 0x03030214
#define OID_FDDI_SMT_ECM_STATE 0x03030215
#define OID_FDDI_SMT_CF_STATE 0x03030216
#define OID_FDDI_SMT_HOLD_STATE 0x03030217
#define OID_FDDI_SMT_REMOTE_DISCONNECT_FLAG 0x03030218
#define OID_FDDI_SMT_STATION_STATUS 0x03030219
#define OID_FDDI_SMT_PEER_WRAP_FLAG 0x0303021A
#define OID_FDDI_SMT_MSG_TIME_STAMP 0x0303021B
#define OID_FDDI_SMT_TRANSITION_TIME_STAMP 0x0303021C
#define OID_FDDI_SMT_SET_COUNT 0x0303021D
#define OID_FDDI_SMT_LAST_SET_STATION_ID 0x0303021E
#define OID_FDDI_MAC_FRAME_STATUS_FUNCTIONS 0x0303021F
#define OID_FDDI_MAC_BRIDGE_FUNCTIONS 0x03030220
#define OID_FDDI_MAC_T_MAX_CAPABILITY 0x03030221
#define OID_FDDI_MAC_TVX_CAPABILITY 0x03030222
#define OID_FDDI_MAC_AVAILABLE_PATHS 0x03030223
#define OID_FDDI_MAC_CURRENT_PATH 0x03030224
#define OID_FDDI_MAC_UPSTREAM_NBR 0x03030225
#define OID_FDDI_MAC_DOWNSTREAM_NBR 0x03030226
#define OID_FDDI_MAC_OLD_UPSTREAM_NBR 0x03030227
#define OID_FDDI_MAC_OLD_DOWNSTREAM_NBR 0x03030228
#define OID_FDDI_MAC_DUP_ADDRESS_TEST 0x03030229
#define OID_FDDI_MAC_REQUESTED_PATHS 0x0303022A
#define OID_FDDI_MAC_DOWNSTREAM_PORT_TYPE 0x0303022B
#define OID_FDDI_MAC_INDEX 0x0303022C
#define OID_FDDI_MAC_SMT_ADDRESS 0x0303022D
#define OID_FDDI_MAC_LONG_GRP_ADDRESS 0x0303022E
#define OID_FDDI_MAC_SHORT_GRP_ADDRESS 0x0303022F
#define OID_FDDI_MAC_T_REQ 0x03030230
#define OID_FDDI_MAC_T_NEG 0x03030231
#define OID_FDDI_MAC_T_MAX 0x03030232
#define OID_FDDI_MAC_TVX_VALUE 0x03030233
#define OID_FDDI_MAC_T_PRI0 0x03030234
#define OID_FDDI_MAC_T_PRI1 0x03030235
#define OID_FDDI_MAC_T_PRI2 0x03030236
#define OID_FDDI_MAC_T_PRI3 0x03030237
#define OID_FDDI_MAC_T_PRI4 0x03030238
#define OID_FDDI_MAC_T_PRI5 0x03030239
#define OID_FDDI_MAC_T_PRI6 0x0303023A
#define OID_FDDI_MAC_FRAME_CT 0x0303023B
#define OID_FDDI_MAC_COPIED_CT 0x0303023C
#define OID_FDDI_MAC_TRANSMIT_CT 0x0303023D
#define OID_FDDI_MAC_TOKEN_CT 0x0303023E
#define OID_FDDI_MAC_ERROR_CT 0x0303023F
#define OID_FDDI_MAC_LOST_CT 0x03030240
#define OID_FDDI_MAC_TVX_EXPIRED_CT 0x03030241
#define OID_FDDI_MAC_NOT_COPIED_CT 0x03030242
#define OID_FDDI_MAC_LATE_CT 0x03030243
#define OID_FDDI_MAC_RING_OP_CT 0x03030244
#define OID_FDDI_MAC_FRAME_ERROR_THRESHOLD 0x03030245
#define OID_FDDI_MAC_FRAME_ERROR_RATIO 0x03030246
#define OID_FDDI_MAC_NOT_COPIED_THRESHOLD 0x03030247
#define OID_FDDI_MAC_NOT_COPIED_RATIO 0x03030248
#define OID_FDDI_MAC_RMT_STATE 0x03030249
#define OID_FDDI_MAC_DA_FLAG 0x0303024A
#define OID_FDDI_MAC_UNDA_FLAG 0x0303024B
#define OID_FDDI_MAC_FRAME_ERROR_FLAG 0x0303024C
#define OID_FDDI_MAC_NOT_COPIED_FLAG 0x0303024D
#define OID_FDDI_MAC_MA_UNITDATA_AVAILABLE 0x0303024E
#define OID_FDDI_MAC_HARDWARE_PRESENT 0x0303024F
#define OID_FDDI_MAC_MA_UNITDATA_ENABLE 0x03030250
#define OID_FDDI_PATH_INDEX 0x03030251
#define OID_FDDI_PATH_RING_LATENCY 0x03030252
#define OID_FDDI_PATH_TRACE_STATUS 0x03030253
#define OID_FDDI_PATH_SBA_PAYLOAD 0x03030254
#define OID_FDDI_PATH_SBA_OVERHEAD 0x03030255
#define OID_FDDI_PATH_CONFIGURATION 0x03030256
#define OID_FDDI_PATH_T_R_MODE 0x03030257
#define OID_FDDI_PATH_SBA_AVAILABLE 0x03030258
#define OID_FDDI_PATH_TVX_LOWER_BOUND 0x03030259
#define OID_FDDI_PATH_T_MAX_LOWER_BOUND 0x0303025A
#define OID_FDDI_PATH_MAX_T_REQ 0x0303025B
#define OID_FDDI_PORT_MY_TYPE 0x0303025C
#define OID_FDDI_PORT_NEIGHBOR_TYPE 0x0303025D
#define OID_FDDI_PORT_CONNECTION_POLICIES 0x0303025E
#define OID_FDDI_PORT_MAC_INDICATED 0x0303025F
#define OID_FDDI_PORT_CURRENT_PATH 0x03030260
#define OID_FDDI_PORT_REQUESTED_PATHS 0x03030261
#define OID_FDDI_PORT_MAC_PLACEMENT 0x03030262
#define OID_FDDI_PORT_AVAILABLE_PATHS 0x03030263
#define OID_FDDI_PORT_MAC_LOOP_TIME 0x03030264
#define OID_FDDI_PORT_PMD_CLASS 0x03030265
#define OID_FDDI_PORT_CONNECTION_CAPABILITIES 0x03030266
#define OID_FDDI_PORT_INDEX 0x03030267
#define OID_FDDI_PORT_MAINT_LS 0x03030268
#define OID_FDDI_PORT_BS_FLAG 0x03030269
#define OID_FDDI_PORT_PC_LS 0x0303026A
#define OID_FDDI_PORT_EB_ERROR_CT 0x0303026B
#define OID_FDDI_PORT_LCT_FAIL_CT 0x0303026C
#define OID_FDDI_PORT_LER_ESTIMATE 0x0303026D
#define OID_FDDI_PORT_LEM_REJECT_CT 0x0303026E
#define OID_FDDI_PORT_LEM_CT 0x0303026F
#define OID_FDDI_PORT_LER_CUTOFF 0x03030270
#define OID_FDDI_PORT_LER_ALARM 0x03030271
#define OID_FDDI_PORT_CONNNECT_STATE 0x03030272
#define OID_FDDI_PORT_PCM_STATE 0x03030273
#define OID_FDDI_PORT_PC_WITHHOLD 0x03030274
#define OID_FDDI_PORT_LER_FLAG 0x03030275
#define OID_FDDI_PORT_HARDWARE_PRESENT 0x03030276
#define OID_FDDI_SMT_STATION_ACTION 0x03030277
#define OID_FDDI_PORT_ACTION 0x03030278
#define OID_FDDI_IF_DESCR 0x03030279
#define OID_FDDI_IF_TYPE 0x0303027A
#define OID_FDDI_IF_MTU 0x0303027B
#define OID_FDDI_IF_SPEED 0x0303027C
#define OID_FDDI_IF_PHYS_ADDRESS 0x0303027D
#define OID_FDDI_IF_ADMIN_STATUS 0x0303027E
#define OID_FDDI_IF_OPER_STATUS 0x0303027F
#define OID_FDDI_IF_LAST_CHANGE 0x03030280
#define OID_FDDI_IF_IN_OCTETS 0x03030281
#define OID_FDDI_IF_IN_UCAST_PKTS 0x03030282
#define OID_FDDI_IF_IN_NUCAST_PKTS 0x03030283
#define OID_FDDI_IF_IN_DISCARDS 0x03030284
#define OID_FDDI_IF_IN_ERRORS 0x03030285
#define OID_FDDI_IF_IN_UNKNOWN_PROTOS 0x03030286
#define OID_FDDI_IF_OUT_OCTETS 0x03030287
#define OID_FDDI_IF_OUT_UCAST_PKTS 0x03030288
#define OID_FDDI_IF_OUT_NUCAST_PKTS 0x03030289
#define OID_FDDI_IF_OUT_DISCARDS 0x0303028A
#define OID_FDDI_IF_OUT_ERRORS 0x0303028B
#define OID_FDDI_IF_OUT_QLEN 0x0303028C
#define OID_FDDI_IF_SPECIFIC 0x0303028D
//
// WAN objects
//
#define OID_WAN_PERMANENT_ADDRESS 0x04010101
#define OID_WAN_CURRENT_ADDRESS 0x04010102
#define OID_WAN_QUALITY_OF_SERVICE 0x04010103
#define OID_WAN_PROTOCOL_TYPE 0x04010104
#define OID_WAN_MEDIUM_SUBTYPE 0x04010105
#define OID_WAN_HEADER_FORMAT 0x04010106
#define OID_WAN_GET_INFO 0x04010107
#define OID_WAN_SET_LINK_INFO 0x04010108
#define OID_WAN_GET_LINK_INFO 0x04010109
#define OID_WAN_LINE_COUNT 0x0401010A
#define OID_WAN_PROTOCOL_CAPS 0x0401010B
#define OID_WAN_GET_BRIDGE_INFO 0x0401020A
#define OID_WAN_SET_BRIDGE_INFO 0x0401020B
#define OID_WAN_GET_COMP_INFO 0x0401020C
#define OID_WAN_SET_COMP_INFO 0x0401020D
#define OID_WAN_GET_STATS_INFO 0x0401020E
//
// These are connection-oriented WAN OIDs.
// These replace the above OIDs for CoNDIS WAN Miniports
//
#define OID_WAN_CO_GET_INFO 0x04010180
#define OID_WAN_CO_SET_LINK_INFO 0x04010181
#define OID_WAN_CO_GET_LINK_INFO 0x04010182
#define OID_WAN_CO_GET_COMP_INFO 0x04010280
#define OID_WAN_CO_SET_COMP_INFO 0x04010281
#define OID_WAN_CO_GET_STATS_INFO 0x04010282
//
// LocalTalk objects
//
#define OID_LTALK_CURRENT_NODE_ID 0x05010102
#define OID_LTALK_IN_BROADCASTS 0x05020101
#define OID_LTALK_IN_LENGTH_ERRORS 0x05020102
#define OID_LTALK_OUT_NO_HANDLERS 0x05020201
#define OID_LTALK_COLLISIONS 0x05020202
#define OID_LTALK_DEFERS 0x05020203
#define OID_LTALK_NO_DATA_ERRORS 0x05020204
#define OID_LTALK_RANDOM_CTS_ERRORS 0x05020205
#define OID_LTALK_FCS_ERRORS 0x05020206
//
// Arcnet objects
//
#define OID_ARCNET_PERMANENT_ADDRESS 0x06010101
#define OID_ARCNET_CURRENT_ADDRESS 0x06010102
#define OID_ARCNET_RECONFIGURATIONS 0x06020201
//
// TAPI objects
//
#define OID_TAPI_ACCEPT 0x07030101
#define OID_TAPI_ANSWER 0x07030102
#define OID_TAPI_CLOSE 0x07030103
#define OID_TAPI_CLOSE_CALL 0x07030104
#define OID_TAPI_CONDITIONAL_MEDIA_DETECTION 0x07030105
#define OID_TAPI_CONFIG_DIALOG 0x07030106
#define OID_TAPI_DEV_SPECIFIC 0x07030107
#define OID_TAPI_DIAL 0x07030108
#define OID_TAPI_DROP 0x07030109
#define OID_TAPI_GET_ADDRESS_CAPS 0x0703010A
#define OID_TAPI_GET_ADDRESS_ID 0x0703010B
#define OID_TAPI_GET_ADDRESS_STATUS 0x0703010C
#define OID_TAPI_GET_CALL_ADDRESS_ID 0x0703010D
#define OID_TAPI_GET_CALL_INFO 0x0703010E
#define OID_TAPI_GET_CALL_STATUS 0x0703010F
#define OID_TAPI_GET_DEV_CAPS 0x07030110
#define OID_TAPI_GET_DEV_CONFIG 0x07030111
#define OID_TAPI_GET_EXTENSION_ID 0x07030112
#define OID_TAPI_GET_ID 0x07030113
#define OID_TAPI_GET_LINE_DEV_STATUS 0x07030114
#define OID_TAPI_MAKE_CALL 0x07030115
#define OID_TAPI_NEGOTIATE_EXT_VERSION 0x07030116
#define OID_TAPI_OPEN 0x07030117
#define OID_TAPI_PROVIDER_INITIALIZE 0x07030118
#define OID_TAPI_PROVIDER_SHUTDOWN 0x07030119
#define OID_TAPI_SECURE_CALL 0x0703011A
#define OID_TAPI_SELECT_EXT_VERSION 0x0703011B
#define OID_TAPI_SEND_USER_USER_INFO 0x0703011C
#define OID_TAPI_SET_APP_SPECIFIC 0x0703011D
#define OID_TAPI_SET_CALL_PARAMS 0x0703011E
#define OID_TAPI_SET_DEFAULT_MEDIA_DETECTION 0x0703011F
#define OID_TAPI_SET_DEV_CONFIG 0x07030120
#define OID_TAPI_SET_MEDIA_MODE 0x07030121
#define OID_TAPI_SET_STATUS_MESSAGES 0x07030122
#define OID_TAPI_GATHER_DIGITS 0x07030123
#define OID_TAPI_MONITOR_DIGITS 0x07030124
//
// ATM Connection Oriented OIDs
//
#define OID_ATM_SUPPORTED_VC_RATES 0x08010101
#define OID_ATM_SUPPORTED_SERVICE_CATEGORY 0x08010102
#define OID_ATM_SUPPORTED_AAL_TYPES 0x08010103
#define OID_ATM_HW_CURRENT_ADDRESS 0x08010104
#define OID_ATM_MAX_ACTIVE_VCS 0x08010105
#define OID_ATM_MAX_ACTIVE_VCI_BITS 0x08010106
#define OID_ATM_MAX_ACTIVE_VPI_BITS 0x08010107
#define OID_ATM_MAX_AAL0_PACKET_SIZE 0x08010108
#define OID_ATM_MAX_AAL1_PACKET_SIZE 0x08010109
#define OID_ATM_MAX_AAL34_PACKET_SIZE 0x0801010A
#define OID_ATM_MAX_AAL5_PACKET_SIZE 0x0801010B
#define OID_ATM_SIGNALING_VPIVCI 0x08010201
#define OID_ATM_ASSIGNED_VPI 0x08010202
#define OID_ATM_ACQUIRE_ACCESS_NET_RESOURCES 0x08010203
#define OID_ATM_RELEASE_ACCESS_NET_RESOURCES 0x08010204
#define OID_ATM_ILMI_VPIVCI 0x08010205
#define OID_ATM_DIGITAL_BROADCAST_VPIVCI 0x08010206
#define OID_ATM_GET_NEAREST_FLOW 0x08010207
#define OID_ATM_ALIGNMENT_REQUIRED 0x08010208
#define OID_ATM_LECS_ADDRESS 0x08010209
#define OID_ATM_SERVICE_ADDRESS 0x0801020A
#define OID_ATM_CALL_PROCEEDING 0x0801020B // UNI 4.0
#define OID_ATM_CALL_ALERTING 0x0801020C // UNI 4.0
#define OID_ATM_PARTY_ALERTING 0x0801020D // UNI 4.0
#define OID_ATM_CALL_NOTIFY 0x0801020E // UNI 4.0
#define OID_ATM_MY_IP_NM_ADDRESS 0x0801020F
//
// ATM specific statistics OIDs.
//
#define OID_ATM_RCV_CELLS_OK 0x08020101
#define OID_ATM_XMIT_CELLS_OK 0x08020102
#define OID_ATM_RCV_CELLS_DROPPED 0x08020103
#define OID_ATM_RCV_INVALID_VPI_VCI 0x08020201
#define OID_ATM_CELLS_HEC_ERROR 0x08020202
#define OID_ATM_RCV_REASSEMBLY_ERROR 0x08020203
//
// PCCA (Wireless) object
//
//
// All WirelessWAN devices must support the following OIDs
//
#define OID_WW_GEN_NETWORK_TYPES_SUPPORTED 0x09010101
#define OID_WW_GEN_NETWORK_TYPE_IN_USE 0x09010102
#define OID_WW_GEN_HEADER_FORMATS_SUPPORTED 0x09010103
#define OID_WW_GEN_HEADER_FORMAT_IN_USE 0x09010104
#define OID_WW_GEN_INDICATION_REQUEST 0x09010105
#define OID_WW_GEN_DEVICE_INFO 0x09010106
#define OID_WW_GEN_OPERATION_MODE 0x09010107
#define OID_WW_GEN_LOCK_STATUS 0x09010108
#define OID_WW_GEN_DISABLE_TRANSMITTER 0x09010109
#define OID_WW_GEN_NETWORK_ID 0x0901010A
#define OID_WW_GEN_PERMANENT_ADDRESS 0x0901010B
#define OID_WW_GEN_CURRENT_ADDRESS 0x0901010C
#define OID_WW_GEN_SUSPEND_DRIVER 0x0901010D
#define OID_WW_GEN_BASESTATION_ID 0x0901010E
#define OID_WW_GEN_CHANNEL_ID 0x0901010F
#define OID_WW_GEN_ENCRYPTION_SUPPORTED 0x09010110
#define OID_WW_GEN_ENCRYPTION_IN_USE 0x09010111
#define OID_WW_GEN_ENCRYPTION_STATE 0x09010112
#define OID_WW_GEN_CHANNEL_QUALITY 0x09010113
#define OID_WW_GEN_REGISTRATION_STATUS 0x09010114
#define OID_WW_GEN_RADIO_LINK_SPEED 0x09010115
#define OID_WW_GEN_LATENCY 0x09010116
#define OID_WW_GEN_BATTERY_LEVEL 0x09010117
#define OID_WW_GEN_EXTERNAL_POWER 0x09010118
//
// These are optional
//
#define OID_WW_GEN_PING_ADDRESS 0x09010201
#define OID_WW_GEN_RSSI 0x09010202
#define OID_WW_GEN_SIM_STATUS 0x09010203
#define OID_WW_GEN_ENABLE_SIM_PIN 0x09010204
#define OID_WW_GEN_CHANGE_SIM_PIN 0x09010205
#define OID_WW_GEN_SIM_PUK 0x09010206
#define OID_WW_GEN_SIM_EXCEPTION 0x09010207
//
// Network Dependent OIDs - Mobitex:
//
#define OID_WW_MBX_SUBADDR 0x09050101
// OID 0x09050102 is reserved and may not be used
#define OID_WW_MBX_FLEXLIST 0x09050103
#define OID_WW_MBX_GROUPLIST 0x09050104
#define OID_WW_MBX_TRAFFIC_AREA 0x09050105
#define OID_WW_MBX_LIVE_DIE 0x09050106
#define OID_WW_MBX_TEMP_DEFAULTLIST 0x09050107
//
// Network Dependent OIDs - Pinpoint:
//
//
// The following Pin Point characteristics have been deprecated by the
// PCCA and are considered reserved values. They are include here only for
// historical purposes and should not be used
//
#define OID_WW_PIN_LOC_AUTHORIZE 0x09090101
#define OID_WW_PIN_LAST_LOCATION 0x09090102
#define OID_WW_PIN_LOC_FIX 0x09090103
//
// Network Dependent - CDPD:
//
#define OID_WW_CDPD_SPNI 0x090D0101
#define OID_WW_CDPD_WASI 0x090D0102
#define OID_WW_CDPD_AREA_COLOR 0x090D0103
#define OID_WW_CDPD_TX_POWER_LEVEL 0x090D0104
#define OID_WW_CDPD_EID 0x090D0105
#define OID_WW_CDPD_HEADER_COMPRESSION 0x090D0106
#define OID_WW_CDPD_DATA_COMPRESSION 0x090D0107
#define OID_WW_CDPD_CHANNEL_SELECT 0x090D0108
#define OID_WW_CDPD_CHANNEL_STATE 0x090D0109
#define OID_WW_CDPD_NEI 0x090D010A
#define OID_WW_CDPD_NEI_STATE 0x090D010B
#define OID_WW_CDPD_SERVICE_PROVIDER_IDENTIFIER 0x090D010C
#define OID_WW_CDPD_SLEEP_MODE 0x090D010D
//
// At the request of the PCCA STD-201 Annex C working group the following OID
// value has been superceeded by more specific objects. Its value is reserved by
// the PCCA,is included here for historical purposes only, and should not be
// used.
//
#define OID_WW_CDPD_CIRCUIT_SWITCHED 0x090D010E
#define OID_WW_CDPD_TEI 0x090D010F
#define OID_WW_CDPD_RSSI 0x090D0110
//
// CDPD Circuit Switched objects
//
#define OID_WW_CDPD_CS_SERVICE_PREFERENCE 0x090D0111
#define OID_WW_CDPD_CS_SERVICE_STATUS 0x090D0112
#define OID_WW_CDPD_CS_INFO 0x090D0113
#define OID_WW_CDPD_CS_SUSPEND 0x090D0114
#define OID_WW_CDPD_CS_DEFAULT_DIAL_CODE 0x090D0115
#define OID_WW_CDPD_CS_CALLBACK 0x090D0116
#define OID_WW_CDPD_CS_SID_LIST 0x090D0117
#define OID_WW_CDPD_CS_CONFIGURATION 0x090D0118
//
// Network Dependent - Ardis:
//
//
// At the request of Ardis these OID value have been superceeded. Their
// functionality has been merged with the DataTAC objects. Therefore
// these values are reserved by the PCCA, are include here for
// historical purposes only, and should not be used.
//
#define OID_WW_ARD_SNDCP 0x09110101
#define OID_WW_ARD_TMLY_MSG 0x09110102
#define OID_WW_ARD_DATAGRAM 0x09110103
//
// Network Dependent - DataTac:
//
#define OID_WW_TAC_COMPRESSION 0x09150101
//
// At the request of Motorola, the following two OID values have been
// superceeded. Their functionality has been subsumed by other more specific
// DataTac objects and should not be used. These values are reserved by the
// PCCA and are include here only for historical purposes only.
//
#define OID_WW_TAC_SET_CONFIG 0x09150102
#define OID_WW_TAC_GET_STATUS 0x09150103
#define OID_WW_TAC_USER_HEADER 0x09150104
//
// DataTAC characteristic object values
//
#define OID_WW_TAC_UNIQUE_SDU_TAG 0x09150105
#define OID_WW_TAC_SEND_COMMAND 0x09150106
#define OID_WW_TAC_GET_RESPONSE 0x09150107
#define OID_WW_TAC_DISABLE_RECEIVER 0x09150108
#define OID_WW_TAC_ANTENNA_MODE 0x09150109
#define OID_WW_TAC_FLUSH_DATA 0x0915010A
#define OID_WW_TAC_SHUTDOWN_DEVICE 0x0915010B
#define OID_WW_TAC_DEVICE_EXCEPTION 0x0915010C
#define OID_WW_TAC_RECEIVE_EXCEPTION 0x0915010D
#define OID_WW_TAC_BUFFER_EXCEPTION 0x0915010E
#define OID_WW_TAC_BATTERY_EXCEPTION 0x0915010F
#define OID_WW_TAC_TRANSMITTER_KEYED 0x09150110
#define OID_WW_TAC_SYSTEM_TABLE 0x09150111
#define OID_WW_TAC_CHANNEL_TABLE 0x09150112
#define OID_WW_TAC_DCHANNEL_TABLE 0x09150113
#define OID_WW_TAC_RECEIVE_QUEUE_COUNT 0x09150114
//
// DataTac statistic object value
//
#define OID_WW_TAC_STATISTICS 0x09160101
//
// Network Dependent - Metricom:
//
#define OID_WW_MET_FUNCTION 0x09190101
//
// IRDA objects
//
#define OID_IRDA_RECEIVING 0x0A010100
#define OID_IRDA_TURNAROUND_TIME 0x0A010101
#define OID_IRDA_SUPPORTED_SPEEDS 0x0A010102
#define OID_IRDA_LINK_SPEED 0x0A010103
#define OID_IRDA_MEDIA_BUSY 0x0A010104
#define OID_IRDA_EXTRA_RCV_BOFS 0x0A010200
#define OID_IRDA_RATE_SNIFF 0x0A010201
#define OID_IRDA_UNICAST_LIST 0x0A010202
#define OID_IRDA_MAX_UNICAST_LIST_SIZE 0x0A010203
#define OID_IRDA_MAX_RECEIVE_WINDOW_SIZE 0x0A010204
#define OID_IRDA_MAX_SEND_WINDOW_SIZE 0x0A010205
#define OID_IRDA_RESERVED1 0x0A01020A // The range between OID_IRDA_RESERVED1
#define OID_IRDA_RESERVED2 0x0A01020F // and OID_IRDA_RESERVED2 is reserved
//
// BPC OIDs
//
#define OID_BPC_ADAPTER_CAPS 0x0B010100
#define OID_BPC_DEVICES 0x0B010101
#define OID_BPC_DEVICE_CAPS 0x0B010102
#define OID_BPC_DEVICE_SETTINGS 0x0B010103
#define OID_BPC_CONNECTION_STATUS 0x0B010104
#define OID_BPC_ADDRESS_COMPARE 0x0B010105
#define OID_BPC_PROGRAM_GUIDE 0x0B010106
#define OID_BPC_LAST_ERROR 0x0B020107
#define OID_BPC_POOL 0x0B010108
#define OID_BPC_PROVIDER_SPECIFIC 0x0B020109
#define OID_BPC_ADAPTER_SPECIFIC 0x0B02010A
#define OID_BPC_CONNECT 0x0B01010B
#define OID_BPC_COMMIT 0x0B01010C
#define OID_BPC_DISCONNECT 0x0B01010D
#define OID_BPC_CONNECTION_ENABLE 0x0B01010E
#define OID_BPC_POOL_RESERVE 0x0B01010F
#define OID_BPC_POOL_RETURN 0x0B010110
#define OID_BPC_FORCE_RECEIVE 0x0B010111
#define OID_BPC_LAST 0x0B020112
//
// IEEE1394 mandatory general OIDs.
//
#define OID_1394_LOCAL_NODE_INFO 0x0C010101
#define OID_1394_VC_INFO 0x0C010102
//
// The following OIDs are not specific to a media.
//
//
// These are objects for Connection-oriented media call-managers.
//
#define OID_CO_ADD_PVC 0xFE000001
#define OID_CO_DELETE_PVC 0xFE000002
#define OID_CO_GET_CALL_INFORMATION 0xFE000003
#define OID_CO_ADD_ADDRESS 0xFE000004
#define OID_CO_DELETE_ADDRESS 0xFE000005
#define OID_CO_GET_ADDRESSES 0xFE000006
#define OID_CO_ADDRESS_CHANGE 0xFE000007
#define OID_CO_SIGNALING_ENABLED 0xFE000008
#define OID_CO_SIGNALING_DISABLED 0xFE000009
#define OID_CO_AF_CLOSE 0xFE00000A
//
// Objects for call-managers and MCMs that support TAPI access.
//
#define OID_CO_TAPI_CM_CAPS 0xFE001001
#define OID_CO_TAPI_LINE_CAPS 0xFE001002
#define OID_CO_TAPI_ADDRESS_CAPS 0xFE001003
#define OID_CO_TAPI_TRANSLATE_TAPI_CALLPARAMS 0xFE001004
#define OID_CO_TAPI_TRANSLATE_NDIS_CALLPARAMS 0xFE001005
#define OID_CO_TAPI_TRANSLATE_TAPI_SAP 0xFE001006
#define OID_CO_TAPI_GET_CALL_DIAGNOSTICS 0xFE001007
#define OID_CO_TAPI_REPORT_DIGITS 0xFE001008
#define OID_CO_TAPI_DONT_REPORT_DIGITS 0xFE001009
//
// PnP and PM OIDs
//
#define OID_PNP_CAPABILITIES 0xFD010100
#define OID_PNP_SET_POWER 0xFD010101
#define OID_PNP_QUERY_POWER 0xFD010102
#define OID_PNP_ADD_WAKE_UP_PATTERN 0xFD010103
#define OID_PNP_REMOVE_WAKE_UP_PATTERN 0xFD010104
#define OID_PNP_WAKE_UP_PATTERN_LIST 0xFD010105
#define OID_PNP_ENABLE_WAKE_UP 0xFD010106
//
// PnP/PM Statistics (Optional).
//
#define OID_PNP_WAKE_UP_OK 0xFD020200
#define OID_PNP_WAKE_UP_ERROR 0xFD020201
//
// The following bits are defined for OID_PNP_ENABLE_WAKE_UP
//
#define NDIS_PNP_WAKE_UP_MAGIC_PACKET 0x00000001
#define NDIS_PNP_WAKE_UP_PATTERN_MATCH 0x00000002
#define NDIS_PNP_WAKE_UP_LINK_CHANGE 0x00000004
//
// TCP/IP OIDs
//
#define OID_TCP_TASK_OFFLOAD 0xFC010201
#define OID_TCP_TASK_IPSEC_ADD_SA 0xFC010202
#define OID_TCP_TASK_IPSEC_DELETE_SA 0xFC010203
#define OID_TCP_SAN_SUPPORT 0xFC010204
//
// Defines for FFP
//
#define OID_FFP_SUPPORT 0xFC010210
#define OID_FFP_FLUSH 0xFC010211
#define OID_FFP_CONTROL 0xFC010212
#define OID_FFP_PARAMS 0xFC010213
#define OID_FFP_DATA 0xFC010214
#define OID_FFP_DRIVER_STATS 0xFC020210
#define OID_FFP_ADAPTER_STATS 0xFC020211
//
// Defines for QOS
//
#define OID_QOS_TC_SUPPORTED 0xFB010100
#define OID_QOS_REMAINING_BANDWIDTH 0xFB010101
#define OID_QOS_ISSLOW_FLOW 0xFB010102
#define OID_QOS_BESTEFFORT_BANDWIDTH 0xFB010103
#define OID_QOS_LATENCY 0xFB010104
#define OID_QOS_FLOW_IP_CONFORMING 0xFB010105
#define OID_QOS_FLOW_COUNT 0xFB010106
#define OID_QOS_NON_BESTEFFORT_LIMIT 0xFB010107
#define OID_QOS_SCHEDULING_PROFILES_SUPPORTED 0xFB010108
#define OID_QOS_CURRENT_SCHEDULING_PROFILE 0xFB010109
#define OID_QOS_TIMER_RESOLUTION 0xFB01010A
#define OID_QOS_STATISTICS_BUFFER 0xFB01010B
#define OID_QOS_HIERARCHY_CLASS 0xFB01010C
#define OID_QOS_FLOW_MODE 0xFB01010D
#define OID_QOS_ISSLOW_FRAGMENT_SIZE 0xFB01010E
#define OID_QOS_FLOW_IP_NONCONFORMING 0xFB01010F
#define OID_QOS_FLOW_8021P_CONFORMING 0xFB010110
#define OID_QOS_FLOW_8021P_NONCONFORMING 0xFB010111
//
// NDIS Proxy OID_GEN_CO_DEVICE_PROFILE structure. The optional OID and
// this structure is a generic means of describing a CO device's
// capabilites, and is used by the NDIS Proxy to construct a TAPI device
// capabilities structure.
//
typedef struct NDIS_CO_DEVICE_PROFILE
{
NDIS_VAR_DATA_DESC DeviceDescription; // e.g. 'GigabitATMNet'
NDIS_VAR_DATA_DESC DevSpecificInfo; // special features
ULONG ulTAPISupplementaryPassThru;// reserved in NT5
ULONG ulAddressModes;
ULONG ulNumAddresses;
ULONG ulBearerModes;
ULONG ulMaxTxRate; // bytes per second
ULONG ulMinTxRate; // bytes per second
ULONG ulMaxRxRate; // bytes per second
ULONG ulMinRxRate; // bytes per second
ULONG ulMediaModes;
//
// Tone/digit generation and recognition capabilities
//
ULONG ulGenerateToneModes;
ULONG ulGenerateToneMaxNumFreq;
ULONG ulGenerateDigitModes;
ULONG ulMonitorToneMaxNumFreq;
ULONG ulMonitorToneMaxNumEntries;
ULONG ulMonitorDigitModes;
ULONG ulGatherDigitsMinTimeout;// milliseconds
ULONG ulGatherDigitsMaxTimeout;// milliseconds
ULONG ulDevCapFlags; // Misc. capabilities
ULONG ulMaxNumActiveCalls; // (This * ulMinRate) = total bandwidth (which may equal ulMaxRate)
ULONG ulAnswerMode; // Effect of answering a new call when an
// existing call is non-idle
//
// User-User info sizes allowed to accompany each operation
//
ULONG ulUUIAcceptSize; // bytes
ULONG ulUUIAnswerSize; // bytes
ULONG ulUUIMakeCallSize; // bytes
ULONG ulUUIDropSize; // bytes
ULONG ulUUISendUserUserInfoSize; // bytes
ULONG ulUUICallInfoSize; // bytes
} NDIS_CO_DEVICE_PROFILE, *PNDIS_CO_DEVICE_PROFILE;
//
// Structures for TCP IPSec.
//
typedef ULONG IPAddr, IPMask;
typedef ULONG SPI_TYPE;
typedef enum _OFFLOAD_OPERATION_E
{
AUTHENTICATE = 1,
ENCRYPT
}
OFFLOAD_OPERATION_E;
typedef struct _OFFLOAD_ALGO_INFO
{
ULONG algoIdentifier;
ULONG algoKeylen;
ULONG algoRounds;
}
OFFLOAD_ALGO_INFO,
*POFFLOAD_ALGO_INFO;
typedef enum _OFFLOAD_CONF_ALGO
{
OFFLOAD_IPSEC_CONF_NONE,
OFFLOAD_IPSEC_CONF_DES,
OFFLOAD_IPSEC_CONF_RESERVED,
OFFLOAD_IPSEC_CONF_3_DES,
OFFLOAD_IPSEC_CONF_MAX
}
OFFLOAD_CONF_ALGO;
typedef enum _OFFLOAD_INTEGRITY_ALGO
{
OFFLOAD_IPSEC_INTEGRITY_NONE,
OFFLOAD_IPSEC_INTEGRITY_MD5,
OFFLOAD_IPSEC_INTEGRITY_SHA,
OFFLOAD_IPSEC_INTEGRITY_MAX
}
OFFLOAD_INTEGRITY_ALGO;
typedef struct _OFFLOAD_SECURITY_ASSOCIATION
{
OFFLOAD_OPERATION_E Operation;
SPI_TYPE SPI;
OFFLOAD_ALGO_INFO IntegrityAlgo;
OFFLOAD_ALGO_INFO ConfAlgo;
OFFLOAD_ALGO_INFO Reserved;
}
OFFLOAD_SECURITY_ASSOCIATION,
*POFFLOAD_SECURITY_ASSOCIATION;
#define OFFLOAD_MAX_SAS 3
#define OFFLOAD_INBOUND_SA 0x0001
#define OFFLOAD_OUTBOUND_SA 0x0002
typedef struct _OFFLOAD_IPSEC_ADD_SA
{
IPAddr SrcAddr;
IPMask SrcMask;
IPAddr DestAddr;
IPMask DestMask;
ULONG Protocol;
USHORT SrcPort;
USHORT DestPort;
IPAddr SrcTunnelAddr;
IPAddr DestTunnelAddr;
USHORT Flags;
SHORT NumSAs;
OFFLOAD_SECURITY_ASSOCIATION SecAssoc[OFFLOAD_MAX_SAS];
HANDLE OffloadHandle;
ULONG KeyLen;
UCHAR KeyMat[1];
} OFFLOAD_IPSEC_ADD_SA, *POFFLOAD_IPSEC_ADD_SA;
typedef struct _OFFLOAD_IPSEC_DELETE_SA
{
HANDLE OffloadHandle;
} OFFLOAD_IPSEC_DELETE_SA, *POFFLOAD_IPSEC_DELETE_SA;
//
// Medium the Ndis Driver is running on (OID_GEN_MEDIA_SUPPORTED/ OID_GEN_MEDIA_IN_USE).
//
typedef enum _NDIS_MEDIUM
{
NdisMedium802_3,
NdisMedium802_5,
NdisMediumFddi,
NdisMediumWan,
NdisMediumLocalTalk,
NdisMediumDix, // defined for convenience, not a real medium
NdisMediumArcnetRaw,
NdisMediumArcnet878_2,
NdisMediumAtm,
NdisMediumWirelessWan,
NdisMediumIrda,
NdisMediumBpc,
NdisMediumCoWan,
NdisMedium1394,
NdisMediumMax // Not a real medium, defined as an upper-bound
} NDIS_MEDIUM, *PNDIS_MEDIUM;
//
// Physical Medium Type definitions. Used with OID_GEN_PHYSICAL_MEDIUM.
//
typedef enum _NDIS_PHYSICAL_MEDIUM
{
NdisPhysicalMediumReserved0,
NdisPhysicalMediumWirelessLan,
NdisPhysicalMediumCableModem,
NdisPhysicalMediumPhoneLine,
NdisPhysicalMediumPowerLine,
NdisPhysicalMediumDSL, // includes ADSL and UADSL (G.Lite)
NdisPhysicalMediumMax // Not a real physical type, defined as an upper-bound
} NDIS_PHYSICAL_MEDIUM, *PNDIS_PHYSICAL_MEDIUM;
//
// Protocol types supported by ndis. These values need to be consistent with ADDRESS_TYPE_XXX defined in TDI.H
//
#define NDIS_PROTOCOL_ID_DEFAULT 0x00
#define NDIS_PROTOCOL_ID_TCP_IP 0x02
#define NDIS_PROTOCOL_ID_IPX 0x06
#define NDIS_PROTOCOL_ID_NBF 0x07
#define NDIS_PROTOCOL_ID_MAX 0x0F
#define NDIS_PROTOCOL_ID_MASK 0x0F
//
// The following is used with OID_GEN_TRANSPORT_HEADER_OFFSET to indicate the length of the layer-2 header
// for packets sent by a particular protocol.
//
typedef struct _TRANSPORT_HEADER_OFFSET
{
USHORT ProtocolType; // The protocol that is sending this OID (NDIS_PROTOCOL_ID_XXX above)
USHORT HeaderOffset; // The header offset
} TRANSPORT_HEADER_OFFSET, *PTRANSPORT_HEADER_OFFSET;
//
// The structures below need to be consistent with TRANSPORT_ADDRESS structures in TDI.H
//
typedef struct _NETWORK_ADDRESS
{
USHORT AddressLength; // length in bytes of Address[] in this
USHORT AddressType; // type of this address (NDIS_PROTOCOL_ID_XXX above)
UCHAR Address[1]; // actually AddressLength bytes long
} NETWORK_ADDRESS, *PNETWORK_ADDRESS;
//
// The following is used with OID_GEN_NETWORK_LAYER_ADDRESSES to set network layer addresses on an interface
//
typedef struct _NETWORK_ADDRESS_LIST
{
LONG AddressCount; // number of addresses following
USHORT AddressType; // type of this address (NDIS_PROTOCOL_ID_XXX above)
NETWORK_ADDRESS Address[1]; // actually AddressCount elements long
} NETWORK_ADDRESS_LIST, *PNETWORK_ADDRESS_LIST;
//
// IP address - This must remain consistent with TDI_ADDRESS_IP in tdi.h
//
typedef struct _NETWORK_ADDRESS_IP
{
USHORT sin_port;
ULONG in_addr;
UCHAR sin_zero[8];
} NETWORK_ADDRESS_IP, *PNETWORK_ADDRESS_IP;
#define NETWORK_ADDRESS_LENGTH_IP sizeof (NETWORK_ADDRESS_IP)
//
// IPX address - This must remain consistent with TDI_ADDRESS_IPX in tdi.h.
//
typedef struct _NETWORK_ADDRESS_IPX
{
ULONG NetworkAddress;
UCHAR NodeAddress[6];
USHORT Socket;
} NETWORK_ADDRESS_IPX, *PNETWORK_ADDRESS_IPX;
#define NETWORK_ADDRESS_LENGTH_IPX sizeof (NETWORK_ADDRESS_IPX)
//
// Hardware status codes (OID_GEN_HARDWARE_STATUS).
//
typedef enum _NDIS_HARDWARE_STATUS
{
NdisHardwareStatusReady,
NdisHardwareStatusInitializing,
NdisHardwareStatusReset,
NdisHardwareStatusClosing,
NdisHardwareStatusNotReady
} NDIS_HARDWARE_STATUS, *PNDIS_HARDWARE_STATUS;
//
// this is the type passed in the OID_GEN_GET_TIME_CAPS request
//
typedef struct _GEN_GET_TIME_CAPS
{
ULONG Flags; // Bits defined below
ULONG ClockPrecision;
} GEN_GET_TIME_CAPS, *PGEN_GET_TIME_CAPS;
#define READABLE_LOCAL_CLOCK 0x00000001
#define CLOCK_NETWORK_DERIVED 0x00000002
#define CLOCK_PRECISION 0x00000004
#define RECEIVE_TIME_INDICATION_CAPABLE 0x00000008
#define TIMED_SEND_CAPABLE 0x00000010
#define TIME_STAMP_CAPABLE 0x00000020
//
// this is the type passed in the OID_GEN_GET_NETCARD_TIME request
//
typedef struct _GEN_GET_NETCARD_TIME
{
ULONGLONG ReadTime;
} GEN_GET_NETCARD_TIME, *PGEN_GET_NETCARD_TIME;
//
// NDIS PnP routines and definitions.
//
typedef struct _NDIS_PM_PACKET_PATTERN
{
ULONG Priority; // Importance of the given pattern.
ULONG Reserved; // Context information for transports.
ULONG MaskSize; // Size in bytes of the pattern mask.
ULONG PatternOffset; // Offset from beginning of this
// structure to the pattern bytes.
ULONG PatternSize; // Size in bytes of the pattern.
ULONG PatternFlags; // Flags (TBD).
} NDIS_PM_PACKET_PATTERN, *PNDIS_PM_PACKET_PATTERN;
//
// The following structure defines the device power states.
//
typedef enum _NDIS_DEVICE_POWER_STATE
{
NdisDeviceStateUnspecified = 0,
NdisDeviceStateD0,
NdisDeviceStateD1,
NdisDeviceStateD2,
NdisDeviceStateD3,
NdisDeviceStateMaximum
} NDIS_DEVICE_POWER_STATE, *PNDIS_DEVICE_POWER_STATE;
//
// The following structure defines the wake-up capabilities of the device.
//
typedef struct _NDIS_PM_WAKE_UP_CAPABILITIES
{
NDIS_DEVICE_POWER_STATE MinMagicPacketWakeUp;
NDIS_DEVICE_POWER_STATE MinPatternWakeUp;
NDIS_DEVICE_POWER_STATE MinLinkChangeWakeUp;
} NDIS_PM_WAKE_UP_CAPABILITIES, *PNDIS_PM_WAKE_UP_CAPABILITIES;
//
// the following flags define the -enabled- wake-up capabilities of the device
// passed in the Flags field of NDIS_PNP_CAPABILITIES structure
//
#define NDIS_DEVICE_WAKE_UP_ENABLE 0x00000001
//
// This structure defines general PnP capabilities of the miniport driver.
//
typedef struct _NDIS_PNP_CAPABILITIES
{
ULONG Flags;
NDIS_PM_WAKE_UP_CAPABILITIES WakeUpCapabilities;
} NDIS_PNP_CAPABILITIES, *PNDIS_PNP_CAPABILITIES;
//
// Defines the attachment types for FDDI (OID_FDDI_ATTACHMENT_TYPE).
//
typedef enum _NDIS_FDDI_ATTACHMENT_TYPE
{
NdisFddiTypeIsolated = 1,
NdisFddiTypeLocalA,
NdisFddiTypeLocalB,
NdisFddiTypeLocalAB,
NdisFddiTypeLocalS,
NdisFddiTypeWrapA,
NdisFddiTypeWrapB,
NdisFddiTypeWrapAB,
NdisFddiTypeWrapS,
NdisFddiTypeCWrapA,
NdisFddiTypeCWrapB,
NdisFddiTypeCWrapS,
NdisFddiTypeThrough
} NDIS_FDDI_ATTACHMENT_TYPE, *PNDIS_FDDI_ATTACHMENT_TYPE;
//
// Defines the ring management states for FDDI (OID_FDDI_RING_MGT_STATE).
//
typedef enum _NDIS_FDDI_RING_MGT_STATE
{
NdisFddiRingIsolated = 1,
NdisFddiRingNonOperational,
NdisFddiRingOperational,
NdisFddiRingDetect,
NdisFddiRingNonOperationalDup,
NdisFddiRingOperationalDup,
NdisFddiRingDirected,
NdisFddiRingTrace
} NDIS_FDDI_RING_MGT_STATE, *PNDIS_FDDI_RING_MGT_STATE;
//
// Defines the Lconnection state for FDDI (OID_FDDI_LCONNECTION_STATE).
//
typedef enum _NDIS_FDDI_LCONNECTION_STATE
{
NdisFddiStateOff = 1,
NdisFddiStateBreak,
NdisFddiStateTrace,
NdisFddiStateConnect,
NdisFddiStateNext,
NdisFddiStateSignal,
NdisFddiStateJoin,
NdisFddiStateVerify,
NdisFddiStateActive,
NdisFddiStateMaintenance
} NDIS_FDDI_LCONNECTION_STATE, *PNDIS_FDDI_LCONNECTION_STATE;
//
// Defines the medium subtypes for WAN medium (OID_WAN_MEDIUM_SUBTYPE).
// Sub-medium used only by connection-oriented WAN devices
// i.e. NdisMediumWan, NdisMediumCoWan.
//
typedef enum _NDIS_WAN_MEDIUM_SUBTYPE
{
NdisWanMediumHub,
NdisWanMediumX_25,
NdisWanMediumIsdn,
NdisWanMediumSerial,
NdisWanMediumFrameRelay,
NdisWanMediumAtm,
NdisWanMediumSonet,
NdisWanMediumSW56K,
NdisWanMediumPPTP,
NdisWanMediumL2TP,
NdisWanMediumIrda,
NdisWanMediumParallel
} NDIS_WAN_MEDIUM_SUBTYPE, *PNDIS_WAN_MEDIUM_SUBTYPE;
//
// Defines the header format for WAN medium (OID_WAN_HEADER_FORMAT).
//
typedef enum _NDIS_WAN_HEADER_FORMAT
{
NdisWanHeaderNative, // src/dest based on subtype, followed by NLPID
NdisWanHeaderEthernet // emulation of ethernet header
} NDIS_WAN_HEADER_FORMAT, *PNDIS_WAN_HEADER_FORMAT;
//
// Defines the line quality on a WAN line (OID_WAN_QUALITY_OF_SERVICE).
//
typedef enum _NDIS_WAN_QUALITY
{
NdisWanRaw,
NdisWanErrorControl,
NdisWanReliable
} NDIS_WAN_QUALITY, *PNDIS_WAN_QUALITY;
//
// Defines a protocol's WAN specific capabilities (OID_WAN_PROTOCOL_CAPS).
//
typedef struct _NDIS_WAN_PROTOCOL_CAPS
{
IN ULONG Flags;
IN ULONG Reserved;
} NDIS_WAN_PROTOCOL_CAPS, *PNDIS_WAN_PROTOCOL_CAPS;
//
// Flags used in NDIS_WAN_PROTOCOL_CAPS
//
#define WAN_PROTOCOL_KEEPS_STATS 0x00000001
//
// Defines the state of a token-ring adapter (OID_802_5_CURRENT_RING_STATE).
//
typedef enum _NDIS_802_5_RING_STATE
{
NdisRingStateOpened = 1,
NdisRingStateClosed,
NdisRingStateOpening,
NdisRingStateClosing,
NdisRingStateOpenFailure,
NdisRingStateRingFailure
} NDIS_802_5_RING_STATE, *PNDIS_802_5_RING_STATE;
//
// Defines the state of the LAN media
//
typedef enum _NDIS_MEDIA_STATE
{
NdisMediaStateConnected,
NdisMediaStateDisconnected
} NDIS_MEDIA_STATE, *PNDIS_MEDIA_STATE;
//
// The following is set on a per-packet basis as OOB data with NdisClass802_3Priority
//
typedef ULONG Priority_802_3; // 0-7 priority levels
//
// The following structure is used to query OID_GEN_CO_LINK_SPEED and
// OID_GEN_CO_MINIMUM_LINK_SPEED. The first OID will return the current
// link speed of the adapter. The second will return the minimum link speed
// the adapter is capable of.
//
typedef struct _NDIS_CO_LINK_SPEED
{
ULONG Outbound;
ULONG Inbound;
} NDIS_CO_LINK_SPEED, *PNDIS_CO_LINK_SPEED;
#ifndef _NDIS_
typedef int NDIS_STATUS, *PNDIS_STATUS;
#endif
//
// Structure to be used for OID_GEN_SUPPORTED_GUIDS.
// This structure describes an OID to GUID mapping.
// Or a Status to GUID mapping.
// When ndis receives a request for a give GUID it will
// query the miniport with the supplied OID.
//
typedef struct _NDIS_GUID
{
GUID Guid;
union
{
NDIS_OID Oid;
NDIS_STATUS Status;
};
ULONG Size; // Size of the data element. If the GUID
// represents an array then this is the
// size of an element in the array.
// This is -1 for strings.
ULONG Flags;
} NDIS_GUID, *PNDIS_GUID;
#define fNDIS_GUID_TO_OID 0x00000001
#define fNDIS_GUID_TO_STATUS 0x00000002
#define fNDIS_GUID_ANSI_STRING 0x00000004
#define fNDIS_GUID_UNICODE_STRING 0x00000008
#define fNDIS_GUID_ARRAY 0x00000010
//
// Ndis Packet Filter Bits (OID_GEN_CURRENT_PACKET_FILTER).
//
#define NDIS_PACKET_TYPE_DIRECTED 0x00000001
#define NDIS_PACKET_TYPE_MULTICAST 0x00000002
#define NDIS_PACKET_TYPE_ALL_MULTICAST 0x00000004
#define NDIS_PACKET_TYPE_BROADCAST 0x00000008
#define NDIS_PACKET_TYPE_SOURCE_ROUTING 0x00000010
#define NDIS_PACKET_TYPE_PROMISCUOUS 0x00000020
#define NDIS_PACKET_TYPE_SMT 0x00000040
#define NDIS_PACKET_TYPE_ALL_LOCAL 0x00000080
#define NDIS_PACKET_TYPE_GROUP 0x00001000
#define NDIS_PACKET_TYPE_ALL_FUNCTIONAL 0x00002000
#define NDIS_PACKET_TYPE_FUNCTIONAL 0x00004000
#define NDIS_PACKET_TYPE_MAC_FRAME 0x00008000
//
// Ndis Token-Ring Ring Status Codes (OID_802_5_CURRENT_RING_STATUS).
//
#define NDIS_RING_SIGNAL_LOSS 0x00008000
#define NDIS_RING_HARD_ERROR 0x00004000
#define NDIS_RING_SOFT_ERROR 0x00002000
#define NDIS_RING_TRANSMIT_BEACON 0x00001000
#define NDIS_RING_LOBE_WIRE_FAULT 0x00000800
#define NDIS_RING_AUTO_REMOVAL_ERROR 0x00000400
#define NDIS_RING_REMOVE_RECEIVED 0x00000200
#define NDIS_RING_COUNTER_OVERFLOW 0x00000100
#define NDIS_RING_SINGLE_STATION 0x00000080
#define NDIS_RING_RING_RECOVERY 0x00000040
//
// Ndis protocol option bits (OID_GEN_PROTOCOL_OPTIONS).
//
#define NDIS_PROT_OPTION_ESTIMATED_LENGTH 0x00000001
#define NDIS_PROT_OPTION_NO_LOOPBACK 0x00000002
#define NDIS_PROT_OPTION_NO_RSVD_ON_RCVPKT 0x00000004
//
// Ndis MAC option bits (OID_GEN_MAC_OPTIONS).
//
#define NDIS_MAC_OPTION_COPY_LOOKAHEAD_DATA 0x00000001
#define NDIS_MAC_OPTION_RECEIVE_SERIALIZED 0x00000002
#define NDIS_MAC_OPTION_TRANSFERS_NOT_PEND 0x00000004
#define NDIS_MAC_OPTION_NO_LOOPBACK 0x00000008
#define NDIS_MAC_OPTION_FULL_DUPLEX 0x00000010
#define NDIS_MAC_OPTION_EOTX_INDICATION 0x00000020
#define NDIS_MAC_OPTION_8021P_PRIORITY 0x00000040
#define NDIS_MAC_OPTION_RESERVED 0x80000000
//
// NDIS media capabilities bits (OID_GEN_MEDIA_CAPABILITIES).
//
#define NDIS_MEDIA_CAP_TRANSMIT 0x00000001 // Supports sending data
#define NDIS_MEDIA_CAP_RECEIVE 0x00000002 // Supports receiving data
//
// NDIS MAC option bits for OID_GEN_CO_MAC_OPTIONS.
//
#define NDIS_CO_MAC_OPTION_DYNAMIC_LINK_SPEED 0x00000001
#ifdef IRDA
//
// The following is set on a per-packet basis as OOB data with NdisClassIrdaPacketInfo
// This is the per-packet info specified on a per-packet basis
//
typedef struct _NDIS_IRDA_PACKET_INFO
{
ULONG ExtraBOFs;
ULONG MinTurnAroundTime;
} NDIS_IRDA_PACKET_INFO, *PNDIS_IRDA_PACKET_INFO;
#endif
#ifdef WIRELESS_WAN
//
// Wireless WAN structure definitions
//
//
// currently defined Wireless network subtypes
//
typedef enum _NDIS_WW_NETWORK_TYPE
{
NdisWWGeneric,
NdisWWMobitex,
NdisWWPinpoint,
NdisWWCDPD,
NdisWWArdis,
NdisWWDataTAC,
NdisWWMetricom,
NdisWWGSM,
NdisWWCDMA,
NdisWWTDMA,
NdisWWAMPS,
NdisWWInmarsat,
NdisWWpACT,
NdisWWFlex,
NdisWWIDEN
} NDIS_WW_NETWORK_TYPE;
//
// currently defined header formats
//
typedef enum _NDIS_WW_HEADER_FORMAT
{
NdisWWDIXEthernetFrames,
NdisWWMPAKFrames,
NdisWWRDLAPFrames,
NdisWWMDC4800Frames,
NdisWWNCLFrames
} NDIS_WW_HEADER_FORMAT;
//
// currently defined encryption types
//
typedef enum _NDIS_WW_ENCRYPTION_TYPE
{
NdisWWUnknownEncryption = -1,
NdisWWNoEncryption,
NdisWWDefaultEncryption,
NdisWWDESEncryption,
NdisWWRC2Encryption,
NdisWWRC4Encryption,
NdisWWRC5Encryption
} NDIS_WW_ENCRYPTION_TYPE, *PNDIS_WW_ENCRYPTION_TYPE;
typedef enum _WW_ADDRESS_FORMAT
{
WW_IEEE_ADDRESS = 0,
WW_MOBITEX_MAN_ADDRESS,
WW_DATATAC_RDLAP_ADDRESS,
WW_DATATAC_MDC4800_ADDRESS,
WW_DATATAC_RESERVED,
WW_IPv4_ADDRESS,
WW_IPv6_ADDRESS,
WW_PROPRIETARY_ADDRESS,
} WW_ADDRESS_FORMAT;
typedef enum _WW_GEN_SUM_EXCEPTION
{
SIM_STATUS_OK = 0,
SIM_STATUS_ERROR,
SIM_STATUS_MISSING,
SIM_STATUS_NO_RESPONSE,
SIM_STATUS_REMOVED,
SIM_STATUS_CRYPT_ERROR,
SIM_STATUS_AUTH_ERROR,
SIM_STATUS_NEED_PIN,
SIM_STATUS_NEED_PUK,
SIM_STATUS_WRONG,
} WW_GEN_SIM_EXCEPTION;
//
// OID_WW_GEN_INDICATION_REQUEST
//
typedef struct _NDIS_WW_INDICATION_REQUEST
{
NDIS_OID Oid; // IN
ULONG uIndicationFlag; // IN
ULONG uApplicationToken; // IN OUT
HANDLE hIndicationHandle; // IN OUT
INT iPollingInterval; // IN OUT
NDIS_VAR_DATA_DESC InitialValue; // IN OUT
NDIS_VAR_DATA_DESC OIDIndicationValue; // OUT - only valid after indication
NDIS_VAR_DATA_DESC TriggerValue; // IN
} NDIS_WW_INDICATION_REQUEST, *PNDIS_WW_INDICATION_REQUEST;
#define OID_INDICATION_REQUEST_ENABLE 0x0000
#define OID_INDICATION_REQUEST_CANCEL 0x0001
//
// OID_WW_GEN_DEVICE_INFO
//
typedef struct _WW_DEVICE_INFO
{
NDIS_VAR_DATA_DESC Manufacturer;
NDIS_VAR_DATA_DESC ModelNum;
NDIS_VAR_DATA_DESC SWVersionNum;
NDIS_VAR_DATA_DESC SerialNum;
} WW_DEVICE_INFO, *PWW_DEVICE_INFO;
//
// OID_WW_GEN_OPERATION_MODE
//
typedef INT WW_OPERATION_MODE; // 0 = Normal mode
// 1 = Power saving mode
// -1 = mode unknown
//
// OID_WW_GEN_LOCK_STATUS
//
typedef INT WW_LOCK_STATUS; // 0 = unlocked
// 1 = locked
// -1 = unknown lock status
//
// OID_WW_GEN_DISABLE_TRANSMITTER
//
typedef INT WW_DISABLE_TRANSMITTER; // 0 = transmitter enabled
// 1 = transmitter disabled
// -1 = unknown value
//
// OID_WW_GEN_NETWORK_ID
//
typedef NDIS_VAR_DATA_DESC WW_NETWORK_ID;
//
// OID_WW_GEN_PERMANENT_ADDRESS
//
typedef NDIS_VAR_DATA_DESC WW_PERMANENT_ADDRESS;
//
// OID_WW_GEN_CURRENT_ADDRESS
//
typedef struct _WW_CURRENT_ADDRESS
{
NDIS_WW_HEADER_FORMAT Format;
NDIS_VAR_DATA_DESC Address;
} WW_CURRENT_ADDRESS, *PWW_CURRENT_ADDRESS;
//
// OID_WW_GEN_SUSPEND_DRIVER
//
typedef BOOLEAN WW_SUSPEND_DRIVER; // 0 = driver operational
// 1 = driver suspended
//
// OID_WW_GEN_BASESTATION_ID
//
typedef NDIS_VAR_DATA_DESC WW_BASESTATION_ID;
//
// OID_WW_GEN_CHANNEL_ID
//
typedef NDIS_VAR_DATA_DESC WW_CHANNEL_ID;
//
// OID_WW_GEN_ENCRYPTION_STATE
//
typedef BOOLEAN WW_ENCRYPTION_STATE; // 0 = if encryption is disabled
// 1 = if encryption is enabled
//
// OID_WW_GEN_CHANNEL_QUALITY
//
typedef INT WW_CHANNEL_QUALITY; // 0 = Not in network contact,
// 1-100 = Quality of Channel (100 is highest quality).
// -1 = channel quality is unknown
//
// OID_WW_GEN_REGISTRATION_STATUS
//
typedef INT WW_REGISTRATION_STATUS; // 0 = Registration denied
// 1 = Registration pending
// 2 = Registered
// -1 = unknown registration status
//
// OID_WW_GEN_RADIO_LINK_SPEED
//
typedef ULONG WW_RADIO_LINK_SPEED; // Bits per second.
//
// OID_WW_GEN_LATENCY
//
typedef ULONG WW_LATENCY; // milliseconds
//
// OID_WW_GEN_BATTERY_LEVEL
//
typedef INT WW_BATTERY_LEVEL; // 0-100 = battery level in percentage
// (100=fully charged)
// -1 = unknown battery level.
//
// OID_WW_GEN_EXTERNAL_POWER
//
typedef INT WW_EXTERNAL_POWER; // 0 = no external power connected
// 1 = external power connected
// -1 = unknown
//
// Ping Address structure
//
typedef struct _WW_PING_ADDRESS
{
WW_ADDRESS_FORMAT Format; // IN
NDIS_VAR_DATA_DESC TargetAddress; // IN
UINT uTime; // OUT in milleseconds
} WW_PING_ADDRESS;
//
// RSSI structure
//
typedef struct _WW_RECEIVE_SIGNAL_STRENGTH_INDICATOR
{
INT iDecibels; // value in DB
INT iFactor; // power of 10
} WW_RECEIVE_SIGNAL_STRENGTH_INDICATOR;
//
// SIM status structure
//
typedef struct _WW_SIM_STATUS
{
BOOLEAN bHasSIM; // TRUE = SIM required
BOOLEAN bBlocked; // TRUE = SIM PIN access blocked
BOOLEAN bLocked; // TRUE = PIN need to access device
BOOLEAN bInitialized; // TRUE = SIM initialized
UINT uCountdown; // = remaining number of attempt to
// enter correct PIN
} WW_SIM_STATUS;
//
// enable SIM PIN structure
//
typedef struct _WW_ENABLE_SIM_PIN
{
BOOLEAN bEnabled; // TRUE = security feature of SIM enabled
NDIS_VAR_DATA_DESC CurrentPIN; // describes buffer containing PIN value
} WW_ENABLE_SIM_PIN;
//
// SIM PIN structure
//
typedef struct _WW_CHANGE_SIM_PIN
{
NDIS_VAR_DATA_DESC OldPIN; // describes buffer containing OLD PIN
NDIS_VAR_DATA_DESC NewPIN; // describes buffer containing new PIN
} WW_CHANGE_SIM_PIN;
//
// new change SIM PUK structure
//
typedef NDIS_VAR_DATA_DESC WW_ENABLE_SIM_PUK;
//
// OID_WW_MET_FUNCTION
//
typedef NDIS_VAR_DATA_DESC WW_MET_FUNCTION;
//
// OID_WW_TAC_COMPRESSION
//
typedef BOOLEAN WW_TAC_COMPRESSION; // Determines whether or not network level compression
// is being used.
//
// OID_WW_TAC_SET_CONFIG
//
// The DataTAC OID that referenced this object has been superceeded. The
// definition is still included for historical purposes only and should not
// be used
//
typedef struct _WW_TAC_SETCONFIG
{
NDIS_VAR_DATA_DESC RCV_MODE; // Select confirmed/unconfirmed
// receive mode
NDIS_VAR_DATA_DESC TX_CONTROL; // Enable or Disable transmitter
NDIS_VAR_DATA_DESC RX_CONTROL; // Enable or disable radio in
// the modem
NDIS_VAR_DATA_DESC FLOW_CONTROL; // Set flow control between DTE
// and DCE
NDIS_VAR_DATA_DESC RESET_CNF; // Reset configuration to
// default
NDIS_VAR_DATA_DESC READ_CNF; // Read the current
// configuration
} WW_TAC_SETCONFIG, *PWW_TAC_SETCONFIG;
//
// OID_WW_TAC_GET_STATUS
//
// The DataTAC OID that referenced this object has been superceeded. The
// definition is still included for historical purposes only and should not
// be used
//
typedef struct _WW_TAC_GETSTATUS
{
BOOLEAN Action; // Set = Execute command.
NDIS_VAR_DATA_DESC Command;
NDIS_VAR_DATA_DESC Option;
NDIS_VAR_DATA_DESC Response; // The response to the requested command
// - max. length of string is 256 octets.
} WW_TAC_GETSTATUS, *PWW_TAC_GETSTATUS;
//
// OID_WW_TAC_USER_HEADER
//
typedef NDIS_VAR_DATA_DESC WW_TAC_USERHEADER; // This will hold the user header - Max. 64 octets.
// August 25, 1998 @14:16 EDT by Emil Sturniolo - WRQ
// added new DataTAC get response structure
typedef struct _WW_TAC_GET_RESPONSE
{
UINT SDUTag; // previousl assigned token
NDIS_VAR_DATA_DESC Response; // response - max 2048 octets
} WW_TAC_GET_RESPONSE;
//
// DataTAC disable receiver structure
//
typedef INT WW_TAC_DISABLE_RECEIVER; // 0 = receiver enabled
// 1 = receiver disabled
// -1 = state of recevier unknown
//
// DataTAC antenna mode structure
//
typedef INT WW_TAC_ANTENNA_MODE; // 0 = Automatic Antenna selection
// 1 = Always use primary antenna
// 2 = Always use secondary antenna
// -1 = Antenna algorithm unknown
//
// DataTAC get response structure
//
typedef INT WW_TAC_FLUSH_DATA; // 1 = flush buffered data destine to net
// 2 = flush buffered data received from net
// 3 = flush all buffered data
//
// DataTAC shutdown device structure
//
typedef INT WW_TAC_SHUTDOWN_DEVICE; // 0 = device enabled
// 1 = device disabled
// -1 = state of device unknown
//
// DataTAC transmitter keyed structure
//
typedef BOOLEAN WW_TAC_TRANSMITTER_KEYED;
//
// added new DataTAC system table structure
//
typedef struct _WW_TAC_SYSTEM_TABLE
{
UINT SystemCount;
UCHAR ContryTable[32];
UCHAR PrefixTable[32];
UCHAR IDTable[32];
} WW_TAC_SYSTEM_TABLE;
//
// added new DataTAC channel table structure
//
typedef struct _WW_TAC_CHANNEL_TABLE
{
UINT ChannelCount;
UCHAR ChannelTable[64];
UCHAR AttrTable[64];
} WW_TAC_CHANNEL_TABLE;
//
// added new DataTAC statistics structure
//
typedef NDIS_VAR_DATA_DESC WW_TAC_STATISTICS;
//
// OID_WW_ARD_SNDCP
//
// The ARDIS OIDs that referenced these object have been deprecated and merged
// with the new DataTAC objects. Their definition are still included for
// historical purposes only and should not be used.
//
typedef struct _WW_ARD_SNDCP
{
NDIS_VAR_DATA_DESC Version; // The version of SNDCP protocol supported.
INT BlockSize; // The block size used for SNDCP
INT Window; // The window size used in SNDCP
} WW_ARD_SNDCP, *PWW_ARD_SNDCP;
//
// OID_WW_ARD_TMLY_MSG
//
typedef BOOLEAN WW_ARD_CHANNEL_STATUS; // The current status of the inbound RF Channel.
//
// OID_WW_ARD_DATAGRAM
//
typedef struct _WW_ARD_DATAGRAM
{
BOOLEAN LoadLevel; // Byte that contains the load level info.
INT SessionTime; // Datagram session time remaining.
NDIS_VAR_DATA_DESC HostAddr; // Host address.
NDIS_VAR_DATA_DESC THostAddr; // Test host address.
} WW_ARD_DATAGRAM, *PWW_ARD_DATAGRAM;
//
// OID_WW_CDPD_SPNI
//
typedef struct _WW_CDPD_SPNI
{
ULONG SPNI[10]; //10 16-bit service provider network IDs
INT OperatingMode; // 0 = ignore SPNI,
// 1 = require SPNI from list,
// 2 = prefer SPNI from list.
// 3 = exclude SPNI from list.
} WW_CDPD_SPNI, *PWW_CDPD_SPNI;
//
// OID_WW_CDPD_WASI
//
typedef struct _WW_CDPD_WIDE_AREA_SERVICE_ID
{
ULONG WASI[10]; //10 16-bit wide area service IDs
INT OperatingMode; // 0 = ignore WASI,
// 1 = Require WASI from list,
// 2 = prefer WASI from list
// 3 = exclude WASI from list.
} WW_CDPD_WIDE_AREA_SERVICE_ID, *PWW_CDPD_WIDE_AREA_SERVICE_ID;
//
// OID_WW_CDPD_AREA_COLOR
//
typedef INT WW_CDPD_AREA_COLOR;
//
// OID_WW_CDPD_TX_POWER_LEVEL
//
typedef ULONG WW_CDPD_TX_POWER_LEVEL;
//
// OID_WW_CDPD_EID
//
typedef NDIS_VAR_DATA_DESC WW_CDPD_EID;
//
// OID_WW_CDPD_HEADER_COMPRESSION
//
typedef INT WW_CDPD_HEADER_COMPRESSION; // 0 = no header compression,
// 1 = always compress headers,
// 2 = compress headers if MD-IS does
// -1 = unknown
//
// OID_WW_CDPD_DATA_COMPRESSION
//
typedef INT WW_CDPD_DATA_COMPRESSION; // 0 = no data compression,
// 1 = data compression enabled
// -1 = unknown
//
// OID_WW_CDPD_CHANNEL_SELECT
//
typedef struct _WW_CDPD_CHANNEL_SELECT
{
ULONG ChannelID; // channel number
ULONG fixedDuration; // duration in seconds
} WW_CDPD_CHANNEL_SELECT, *PWW_CDPD_CHANNEL_SELECT;
//
// OID_WW_CDPD_CHANNEL_STATE
//
typedef enum _WW_CDPD_CHANNEL_STATE
{
CDPDChannelNotAvail,
CDPDChannelScanning,
CDPDChannelInitAcquired,
CDPDChannelAcquired,
CDPDChannelSleeping,
CDPDChannelWaking,
CDPDChannelCSDialing,
CDPDChannelCSRedial,
CDPDChannelCSAnswering,
CDPDChannelCSConnected,
CDPDChannelCSSuspended
} WW_CDPD_CHANNEL_STATE, *PWW_CDPD_CHANNEL_STATE;
//
// OID_WW_CDPD_NEI
//
typedef enum _WW_CDPD_NEI_FORMAT
{
CDPDNeiIPv4,
CDPDNeiCLNP,
CDPDNeiIPv6
} WW_CDPD_NEI_FORMAT, *PWW_CDPD_NEI_FORMAT;
typedef enum _WW_CDPD_NEI_TYPE
{
CDPDNeiIndividual,
CDPDNeiMulticast,
CDPDNeiBroadcast
} WW_CDPD_NEI_TYPE;
typedef struct _WW_CDPD_NEI
{
ULONG uNeiIndex;
WW_CDPD_NEI_FORMAT NeiFormat;
WW_CDPD_NEI_TYPE NeiType;
WORD NeiGmid; // group member identifier, only
// meaningful if NeiType ==
// CDPDNeiMulticast
NDIS_VAR_DATA_DESC NeiAddress;
} WW_CDPD_NEI;
//
// OID_WW_CDPD_NEI_STATE
//
typedef enum _WW_CDPD_NEI_STATE
{
CDPDUnknown,
CDPDRegistered,
CDPDDeregistered
} WW_CDPD_NEI_STATE, *PWW_CDPD_NEI_STATE;
typedef enum _WW_CDPD_NEI_SUB_STATE
{
CDPDPending, // Registration pending
CDPDNoReason, // Registration denied - no reason given
CDPDMDISNotCapable, // Registration denied - MD-IS not capable of
// handling M-ES at this time
CDPDNEINotAuthorized, // Registration denied - NEI is not authorized to
// use this subnetwork
CDPDInsufficientAuth, // Registration denied - M-ES gave insufficient
// authentication credentials
CDPDUnsupportedAuth, // Registration denied - M-ES gave unsupported
// authentication credentials
CDPDUsageExceeded, // Registration denied - NEI has exceeded usage
// limitations
CDPDDeniedThisNetwork // Registration denied on this network, service
// may be obtained on alternate Service Provider
// network
} WW_CDPD_NEI_SUB_STATE;
typedef struct _WW_CDPD_NEI_REG_STATE
{
ULONG uNeiIndex;
WW_CDPD_NEI_STATE NeiState;
WW_CDPD_NEI_SUB_STATE NeiSubState;
} WW_CDPD_NEI_REG_STATE, *PWW_CDPD_NEI_REG_STATE;
//
// OID_WW_CDPD_SERVICE_PROVIDER_IDENTIFIER
//
typedef struct _WW_CDPD_SERVICE_PROVIDER_ID
{
ULONG SPI[10]; //10 16-bit service provider IDs
INT OperatingMode; // 0 = ignore SPI,
// 1 = require SPI from list,
// 2 = prefer SPI from list.
// 3 = SPI from list is excluded
} WW_CDPD_SERVICE_PROVIDER_ID, *PWW_CDPD_SERVICE_PROVIDER_ID;
//
// OID_WW_CDPD_SLEEP_MODE
//
typedef INT WW_CDPD_SLEEP_MODE;
//
// OID_WW_CDPD_TEI
//
typedef ULONG WW_CDPD_TEI;
//
// OID_WW_CDPD_CIRCUIT_SWITCHED
//
// The CDPD OID that referenced this object has been deprecated and superceeded
// by new discrete CDPD objects. The definition is still included for
// historical purposes only and should not be used.
//
typedef struct _WW_CDPD_CIRCUIT_SWITCHED
{
INT service_preference; // -1 = unknown,
// 0 = always use packet switched CDPD,
// 1 = always use CS CDPD via AMPS,
// 2 = always use CS CDPD via PSTN,
// 3 = use circuit switched via AMPS only
// when packet switched is not available.
// 4 = use packet switched only when circuit
// switched via AMPS is not available.
// 5 = device manuf. defined service
// preference.
// 6 = device manuf. defined service
// preference.
INT service_status; // -1 = unknown,
// 0 = packet switched CDPD,
// 1 = circuit switched CDPD via AMPS,
// 2 = circuit switched CDPD via PSTN.
INT connect_rate; // CS connection bit rate (bits per second).
// 0 = no active connection,
// -1 = unknown
// Dial code last used to dial.
NDIS_VAR_DATA_DESC dial_code[20];
ULONG sid; // Current AMPS system ID
INT a_b_side_selection; // -1 = unknown,
// 0 = no AMPS service
// 1 = AMPS "A" side channels selected
// 2 = AMPS "B" side channels selected
INT AMPS_channel; // -1= unknown
// 0 = no AMPS service.
// 1-1023 = AMPS channel number in use
ULONG action; // 0 = no action
// 1 = suspend (hangup)
// 2 = dial
// Default dial code for CS CDPD service
// encoded as specified in the CS CDPD
// implementor guidelines.
NDIS_VAR_DATA_DESC default_dial[20];
// Number for the CS CDPD network to call
// back the mobile, encoded as specified in
// the CS CDPD implementor guidelines.
NDIS_VAR_DATA_DESC call_back[20];
ULONG sid_list[10]; // List of 10 16-bit preferred AMPS
// system IDs for CS CDPD.
ULONG inactivity_timer; // Wait time after last data before dropping
// call.
// 0-65535 = inactivity time limit (seconds).
ULONG receive_timer; // secs. per CS-CDPD Implementor Guidelines.
ULONG conn_resp_timer; // secs. per CS-CDPD Implementor Guidelines.
ULONG reconn_resp_timer; // secs. per CS-CDPD Implementor Guidelines.
ULONG disconn_timer; // secs. per CS-CDPD Implementor Guidelines.
ULONG NEI_reg_timer; // secs. per CS-CDPD Implementor Guidelines.
ULONG reconn_retry_timer; // secs. per CS-CDPD Implementor Guidelines.
ULONG link_reset_timer; // secs. per CS-CDPD Implementor Guidelines.
ULONG link_reset_ack_timer; // secs. per CS-CDPD Implementor Guidelines.
ULONG n401_retry_limit; // per CS-CDPD Implementor Guidelines.
ULONG n402_retry_limit; // per CS-CDPD Implementor Guidelines.
ULONG n404_retry_limit; // per CS-CDPD Implementor Guidelines.
ULONG n405_retry_limit; // per CS-CDPD Implementor Guidelines.
} WW_CDPD_CIRCUIT_SWITCHED, *WW_PCDPD_CIRCUIT_SWITCHED;
typedef ULONG WW_CDPD_RSSI;
//
// cs-cdpd service preference structure
//
typedef INT WW_CDPD_CS_SERVICE_PREFERENCE; // 0 = use packet switched CDPD only
// 1 = use CS-CDPD via AMPS only
// 2 = use CS-CDPD via PSTN only
// 3 = use CS-CDPD via AMPS only
// when packet switched is N/A
// 4 = use packet switched CDPD only
// when CS-CDPD via AMPS is N/A
// 5 = Device manufacture defined
// service preference
// 6 = device manufacture defined
// service preference
// -1 = unknown
//
// cs-cdpd service status structure
//
typedef INT WW_CDPD_CS_SERVICE_STATUS; // 0 = Packet switched CDPD
// 1 = CS-CDPD via AMPS
// 2 = CS-CDPD via PSTN
// -1 = unknown
//
// cs-cdpd info structure
//
typedef struct _WW_CDPD_CS_INFO {
INT ConnectRage; // 0 = no active connection
// -1 = unknown
// all other values represent BPS
NDIS_VAR_DATA_DESC DialCode; // describes buffer of last dial code
UINT SID; // Current AMPS System ID
INT ABSideSelection; // 0 = no AMPS service
// 1 = AMPS "A" side channel selected
// 2 = AMPS "B" side channel selected
INT AMPSChannel; // 0 = no AMPS service
// 1-1023 = current AMPS channel
// -1 = Unknown
// all other values reserved
} WW_CDPD_CS_INFO;
//
// cs-cdpd suspend structure
//
typedef UINT WW_CDPD_CS_SUSPEND; // 0 = nop; 1 = hang up
//
// cs-cdpd default dial code structure
//
typedef NDIS_VAR_DATA_DESC WW_CDPD_DEFAULT_DIAL_CODE; // max 20 octets
//
// cs-cdpd callback structure
//
typedef struct _WW_CDPD_CS_CALLBACK
{
UINT Enabled; // 0 = disable; 1 = enable; -1 = unknown
NDIS_VAR_DATA_DESC Number; // descibes buffer contianing dial code
// max 20 octets
} WW_CDPD_CS_CALLBACK;
//
// cs-cdpd system id list structure
//
typedef struct _WW_CDPD_CS_SID_LIST
{
UINT AMPSystemId[10];
} WW_CDPD_CS_SID_LIST;
//
// cs-cdpd configuration structure
//
typedef struct _WW_CDPD_CS_CONFIGURATION
{
UINT InactivityTimer; // in seconds
UINT ReceiveTimer; // in seconds
UINT ConnResTimer; // in seconds
UINT ReconnRespTimer; // in seconds
UINT DisconnTimer; // in seconds
UINT NEIRegTimer; // in seconds
UINT ReconnRetryTimer; // in seconds
UINT LinkResetTimer; // in seconds
UINT LinkResetAckTimer; // in seconds
UINT n401RetryLimit; // per CS-CDPD Implementers guidelines
UINT n402RetryLimit; // per CS-CDPD Implementers guidelines
UINT n404RetryLimit; // per CS-CDPD Implementers guidelines
UINT n405RetryLimit; // per CS-CDPD Implementers guidelines
} WW_CDPD_CS_CONFIGURATION;
//
// OID_WW_PIN_LOC_AUTHORIZE
//
// The Pin Point OIDs that referenced the structures below have been
// deprecated from the PCCA STD-201 standard. Their definitions are still
// included for historical purposes only and should not be used.
//
typedef INT WW_PIN_AUTHORIZED; // 0 = unauthorized
// 1 = authorized
// -1 = unknown
//
// OID_WW_PIN_LAST_LOCATION
// OID_WW_PIN_LOC_FIX
//
typedef struct _WW_PIN_LOCATION
{
INT Latitude; // Latitude in hundredths of a second
INT Longitude; // Longitude in hundredths of a second
INT Altitude; // Altitude in feet
INT FixTime; // Time of the location fix, since midnight, local time (of the
// current day), in tenths of a second
INT NetTime; // Current local network time of the current day, since midnight,
// in tenths of a second
INT LocQuality; // 0-100 = location quality
INT LatReg; // Latitude registration offset, in hundredths of a second
INT LongReg; // Longitude registration offset, in hundredths of a second
INT GMTOffset; // Offset in minutes of the local time zone from GMT
} WW_PIN_LOCATION, *PWW_PIN_LOCATION;
//
// The following is set on a per-packet basis as OOB data with NdisClassWirelessWanMbxMailbox
//
typedef ULONG WW_MBX_MAILBOX_FLAG; // 1 = set mailbox flag, 0 = do not set mailbox flag
//
// OID_WW_MBX_SUBADDR
//
typedef struct _WW_MBX_PMAN
{
BOOLEAN ACTION; // 0 = Login PMAN, 1 = Logout PMAN
ULONG MAN;
UCHAR PASSWORD[8]; // Password should be null for Logout and indications.
// Maximum length of password is 8 chars.
} WW_MBX_PMAN, *PWW_MBX_PMAN;
//
// OID_WW_MBX_FLEXLIST
//
typedef struct _WW_MBX_FLEXLIST
{
INT count; // Number of MAN entries used.
// -1=unknown.
ULONG MAN[7]; // List of MANs.
} WW_MBX_FLEXLIST;
//
// OID_WW_MBX_GROUPLIST
//
typedef struct _WW_MBX_GROUPLIST
{
INT count; // Number of MAN entries used.
// -1=unknown.
ULONG MAN[15]; // List of MANs.
} WW_MBX_GROUPLIST;
//
// OID_WW_MBX_TRAFFIC_AREA
//
typedef enum _WW_MBX_TRAFFIC_AREA
{
unknown_traffic_area, // The driver has no information about the current traffic area.
in_traffic_area, // Mobile unit has entered a subscribed traffic area.
in_auth_traffic_area, // Mobile unit is outside traffic area but is authorized.
unauth_traffic_area // Mobile unit is outside traffic area but is un-authorized.
} WW_MBX_TRAFFIC_AREA;
//
// OID_WW_MBX_LIVE_DIE
//
typedef INT WW_MBX_LIVE_DIE; // 0 = DIE last received
// 1 = LIVE last received
// -1 = unknown
//
// OID_WW_MBX_TEMP_DEFAULTLIST
//
typedef struct _WW_MBX_CHANNEL_PAIR
{
ULONG Mobile_Tx;
ULONG Mobile_Rx;
} WW_MBX_CHANNEL_PAIR, *PWW_MBX_CHANNEL_PAIR;
typedef struct _WW_MBX_TEMPDEFAULTLIST
{
ULONG Length;
WW_MBX_CHANNEL_PAIR ChannelPair[1];
} WW_MBX_TEMPDEFAULTLIST, *WW_PMBX_TEMPDEFAULTLIST;
#endif // WIRELESS_WAN
//
//
// Base types that were redefined for BPC
//
// BPC_FILETIME is used exactly like FILETIME in Win32
//
// BPC_HANDLE is opaque to everything except the Miniport
//
typedef struct _BPC_FILETIME
{
ULONG dwLowDateTime;
ULONG dwHighDateTime;
} BPC_FILETIME, *PBPC_FILETIME;
typedef PVOID BPC_HANDLE;
//
// BPC Extension Globals
//
//
#define BPC_MIN_DIMENSION 1
#define BPC_MAX_BUFFER_SIZE 64
#define BPC_MIN_BUFFER_SIZE 4
#define BPC_DEVICE_ANY ((BPC_HANDLE) 0xFFFFFFFF)
//
// Buffer indicate reason codes
//
//
typedef enum _NDIS_BPC_INDICATE_REASON
{
bpcBufferFull = 0,
bpcBufferForced,
bpcBufferTimeOut,
bpcBufferDiscontinuity,
bpcBufferOverflow,
bpcBufferStatusEvent
} NDIS_BPC_INDICATE_REASON, *PNDIS_BPC_INDICATE_REASON;
//
// BPC Stream Types
//
#define BPC_STREAM_TYPE_GENERIC_MIN 0x01000000
#define BPC_STREAM_TYPE_RAW 0x01000000
#define BPC_STREAM_TYPE_MPT_128 0x01000001
#define BPC_STREAM_TYPE_MPT_128_CRC 0x01000002
#define BPC_STREAM_TYPE_IP 0x01000003
#define BPC_STREAM_TYPE_PROVIDER_MIN 0x02000000
#define BPC_STREAM_TYPE_PROVIDER_MAX 0x02ffffff
#define BPC_STREAM_TYPE_ADAPTER_MIN 0x03000000
#define BPC_STREAM_TYPE_ADAPTER_MAX 0x03ffffff
//
// BPC Adapter Capabilities
//
typedef struct _NDIS_BPC_ADAPTER_CAPS
{
ULONG ulBPCMajorRev;
ULONG ulBPCMinorRev;
ULONG ulcHSDataDevices;
ULONG ulbpsHSDeviceMax;
ULONG ulcLSDataDevices;
ULONG ulbpsLSDeviceMax;
ULONG ulcTuningDevices;
ULONG ulcbLargestStatus;
ULONG ulVendorId;
ULONG ulAdapterId;
GUID guidProvider;
} NDIS_BPC_ADAPTER_CAPS, *PNDIS_BPC_ADAPTER_CAPS;
//
// BPC Device Enumeration
//
typedef struct _NDIS_BPC_DEVICES
{
ULONG ulcDevices;
BPC_HANDLE rgnhDevices[BPC_MIN_DIMENSION];
} NDIS_BPC_DEVICES, *PNDIS_BPC_DEVICES;
#define CbDevices(cnt) (FIELD_OFFSET(NDIS_BPC_DEVICES, rgnhDevices) + (cnt) * sizeof(BPC_HANDLE))
//
// BPC Device Capabilities Structure
//
typedef struct NDIS_BPC_DEVICE_CAPS
{
BPC_HANDLE nhDevice;
ULONG ulBPCCaps;
ULONG ulbpsMax;
ULONG ulcStreamTypes;
ULONG rgulStreamTypes[BPC_MIN_DIMENSION];
} NDIS_BPC_DEVICE_CAPS, *PNDIS_BPC_DEVICE_CAPS;
#define CbDeviceCaps(cnt) (FIELD_OFFSET(NDIS_BPC_DEVICE_CAPS, rgulStreamTypes) + (cnt) * sizeof(ULONG))
//
// BPC Device Capability Definitions
// (ie Flags that can be set in ulBPCCaps
//
#define BPCCapBusMasteredData 0x01
#define BPCCapIndependentTuner 0x02
#define BPCCapExternalDataBus 0x04
#define BPCCapLowSpeedData 0x10
#define BPCCapHighSpeedData 0x20
//
// BPC Device Settings Structure
//
typedef struct NDIS_BPC_DEVICE_SETTINGS
{
BPC_HANDLE nhDevice;
ULONG ulBPCCaps;
ULONG ulcConnections;
BOOLEAN fEnabled;
ULONG ulStreamType;
ULONG ulcbAddressConnection;
ULONG rgulAddressConnection[BPC_MIN_DIMENSION];
} NDIS_BPC_DEVICE_SETTINGS, *PNDIS_BPC_DEVICE_SETTINGS;
#define CbDeviceSettings(cnt) (FIELD_OFFSET(NDIS_BPC_DEVICE_SETTINGS, rgulAddressConnection) + (cnt) * sizeof(ULONG))
//
// BPC Connection State Definitions
// (ie Acceptable values for ulState)
//
#define BPC_CONNECT_STATE_UNCOMMITTED 0
#define BPC_CONNECT_STATE_QUEUED 1
#define BPC_CONNECT_STATE_ACTIVE 2
#define BPC_CONNECT_STATE_DISCONNECTING 3
//
// BPC Connections Status Structure
//
typedef struct NDIS_BPC_CONNECTION_STATUS
{
BPC_HANDLE nhConnection;
BPC_HANDLE nhDevice;
ULONG ulConnectPriority;
ULONG ulDisconnectPriority;
ULONG ulbpsAverage;
ULONG ulbpsBurst;
ULONG ulState;
BOOLEAN fEnabled;
} NDIS_BPC_CONNECTION_STATUS, *PNDIS_BPC_CONNECTION_STATUS;
//
// BPC Address Comparison Structure
//
typedef struct NDIS_BPC_ADDRESS_COMPARE
{
BOOLEAN fEqual;
ULONG ulcbFirstOffset;
ULONG ulcbFirstLength;
ULONG ulcbSecondOffset;
ULONG ulcbSecondLength;
} NDIS_BPC_ADDRESS_COMPARE, *PNDIS_BPC_ADDRESS_COMPARE;
//
// BPC Program Guide Types
//
// Currently there are no Generic BPC Program Guide types.
//
#define BPC_GUIDE_GENERIC_MIN 0x01000000
#define BPC_GUIDE_GENERIC_MAX 0x01ffffff
#define BPC_GUIDE_PROVIDER_MIN 0x02000000
#define BPC_GUIDE_PROVIDER_MAX 0x02ffffff
#define BPC_GUIDE_ADAPTER_MIN 0x03000000
#define BPC_GUIDE_ADAPTER_MAX 0x03ffffff
//
// BPC Program Guide Structure
//
typedef struct NDIS_BPC_PROGRAM_GUIDE
{
ULONG ulGuideType;
BPC_FILETIME ftLastUpdate;
ULONG ulChangeNumber;
ULONG ulcbGuideSize;
ULONG rgulGuideData[BPC_MIN_DIMENSION];
} NDIS_BPC_PROGRAM_GUIDE, *PNDIS_BPC_PROGRAM_GUIDE;
//
// BPC Extension Errors
// (ie Acceptable values for ulBPCError)
//
typedef enum _NDIS_BPC_ERROR
{
bpcErrorUnknownFailure = 0xc0ff0000,
bpcErrorHardwareFailure,
bpcErrorProviderFailure,
bpcErrorNoDataDevice,
bpcErrorNoTuningDevice,
bpcErrorDeviceNotCapable,
bpcErrorConflictingDevice,
bpcErrorConflictingCapability,
bpcErrorNoBufferMemory,
bpcErrorNoResources,
bpcErrorAdapterClosing,
bpcErrorConnectionClosing,
bpcErrorTooComplex,
bpcErrorProviderNotSupported,
bpcErrorUnknownProviderStructure,
bpcErrorAddressNotSupported,
bpcErrorInvalidAddress,
bpcErrorUnknownAdapterStructure
} NDIS_BPC_ERROR, *PNDIS_BPC_ERROR;
//
// BPC Last Error Structure
//
typedef struct NDIS_BPC_LAST_ERROR
{
ULONG ulErrorContext;
ULONG ulBPCError;
ULONG ulAdapterError;
ULONG ulAdapterContext;
} NDIS_BPC_LAST_ERROR, *PNDIS_BPC_LAST_ERROR;
//
// BPC Buffer Pool Request/Report Structure
//
typedef struct NDIS_BPC_POOL
{
BPC_HANDLE nhConnection;
ULONG ulcbPoolSize;
ULONG ulcbMaxBufferSize;
ULONG ulcbBufferReserved;
} NDIS_BPC_POOL, *PNDIS_BPC_POOL;
//
// BPC Provider and Adapter Specific Structures are defined in the
// BpcXXXX.H file which the Provider/Adapter Manufacturer supplies.
//
//
// BPC Connect Structure
//
typedef struct NDIS_BPC_CONNECT
{
BPC_HANDLE nhConnection;
BPC_HANDLE nhDevice;
ULONG ulConnectPriority;
ULONG ulDisconnectPriority;
BOOLEAN fImmediate;
ULONG ulcbAddress;
GUID guidProvider;
ULONG rgulAddress[BPC_MIN_DIMENSION];
} NDIS_BPC_CONNECT, *PNDIS_BPC_CONNECT;
#define CbConnect(cnt) (FIELD_OFFSET(NDIS_BPC_CONNECT, rgulAddress) + (cnt) * sizeof(ULONG))
//
// BPC Commit Connections Structure
//
typedef struct NDIS_BPC_COMMIT
{
ULONG ulcConnections;
BPC_HANDLE rgnhConnections[BPC_MIN_DIMENSION];
} NDIS_BPC_COMMIT, *PNDIS_BPC_COMMIT;
//
// BPC Disconnect Structure
//
typedef struct NDIS_BPC_DISCONNECT
{
BPC_HANDLE nhConnection;
} NDIS_BPC_DISCONNECT, *PNDIS_BPC_DISCONNECT;
//
// BPC Enable Connection Structure
//
typedef struct NDIS_BPC_CONNECTION_ENABLE
{
BPC_HANDLE nhConnection;
BOOLEAN fEnabled;
} NDIS_BPC_CONNECTION_ENABLE, *PNDIS_BPC_CONNECTION_ENABLE;
//
// BPC Pool Return Structure
//
typedef struct NDIS_BPC_POOL_RETURN
{
BPC_HANDLE nhConnection;
} NDIS_BPC_POOL_RETURN, *PNDIS_BPC_POOL_RETURN;
typedef struct NDIS_BPC_FORCE_RECEIVE
{
BPC_HANDLE nhConnection;
ULONG ulReasonCode;
} NDIS_BPC_FORCE_RECEIVE, *PNDIS_BPC_FORCE_RECEIVE;
//
// BPC Media Specific Information Structure
//
typedef struct NDIS_BPC_MEDIA_SPECIFIC_INFORMATION
{
BPC_HANDLE nhConnection; // The handle to the data device.
ULONG ulBPCStreamType; // The stream type of the data in packet
ULONG ulReasonCode; // The reason the buffer was indicated
PVOID pvMiniportReserved1;
ULONG ulMiniportReserved2;
} NDIS_BPC_MEDIA_SPECIFIC_INFORMATION, *PNDIS_BPC_MEDIA_SPECIFIC_INFORMATION;
//
// BPC Status Categories
//
#define BPC_CATEGORY_BPC 0x01000000
#define BPC_CATEGORY_PROVIDER 0x02000000
#define BPC_CATEGORY_ADAPTER 0x03000000
//
// BPC Status Types for Category BPC_CATEGORY_BPC
//
#define BPC_STATUS_CONNECTED 0x00000001
#define BPC_STATUS_QUEUED 0x00000002
#define BPC_STATUS_ACTIVE 0x00000003
#define BPC_STATUS_DISCONNECTED 0x00000004
#define BPC_STATUS_OVERFLOW 0x00000005
#define BPC_STATUS_DATA_STOP 0x00000006
#define BPC_STATUS_DATA_START 0x00000007
#define BPC_STATUS_DATA_ERROR 0x00000008
//
// BPC Status Indication Structure
//
typedef struct NDIS_BPC_STATUS
{
ULONG ulStatusCategory;
ULONG ulStatusType;
ULONG ulcbStatus;
ULONG rgulStatus;
} NDIS_BPC_STATUS, *PNDIS_BPC_STATUS;
//
// BPC Connection Status Structure
//
// All BPC Generic Connection Status package this structure
// in rgulStatus to indicate to which connection and device
// the status pertains.
//
typedef struct NDIS_BPC_STATUS_CONNECTION
{
BPC_HANDLE nhConnection;
BPC_HANDLE nhDevice;
} NDIS_BPC_STATUS_CONNECTED, *PNDIS_BPC_STATUS_CONNECTED;
#ifdef __cplusplus
}
#endif
#pragma option pop /*P_O_Pop*/
#endif // _NTDDNDIS_